Claimed OU circuit of Rosemary Ainslie

[poynt99]

Rosemary:

I think your question was answered by Hoppy (I think).  I think he said the high drain spike gets coupled into the 555 output through the MOSFET.  So that disturbs the pretty robust 555 and causes false triggering of the 555's voltage comparators, or something to that effect.  The voltage comparators then freak out the output flip-flop.  It sounds perfectly reasonable to me.  Sorry, I know that might be too techie but I am out of steam.

Poynt:  Blast that baby into action!

MileHigh

That was a post I made a few pages back: http://www.overunity.com/index.php?topic=7620.msg203780#msg203780

It's into action, since yesterday Will try plugging the ends and see if the temperature measures differently.

.99

[fuzzytomcat]

Here is Glen's setup with the "Quantum" resistor he made.

His temperature measurements were taken of highest reading on the components. Both resistor ends are partially blocked, the upper one by a stopper, and the lower by having it nearly sitting on the bench surface.

My resistor is suspended about 8" above the bench surface, and both ends are completely open, as shown in a previous post.

.99

The resistor is above the table 2" you can see glass tube behind it and that is not a stopper there is a plastic ring on the end of the stick as a example to support the 1" diameter opening in the center of the resistor to hold it more upright

High Definition Image

http://i276.photobucket.com/albums/kk15/fuzzytomcat/Picture041.jpg

Fuzzy 

[fuzzytomcat]

Fuzzy Glen:

V = Q/C - the voltage across a capacitor is directly proportional to the charge and inversely proportional to the capacitance.  Charge is current times time.  So when current is going out of and into the capacitor, the voltage will go up and down.  However, if you make the capacitance very large, the voltage will only have a barely perceptible ripple.  So the current flowing between the first capacitor, across the resistor into the second capacitor will have a barely perceptible ripple, it will be almost pure DC.  If Poynt measures a DC voltage, that is telling you that current at 12 (or 24?) volt potential will be flowing into the second capacitor to compensate for the net current that is flowing into the circuit at the same potential.  You know the voltage and you know the current, therefore you know the power that is being consumed by the circuit.  The second cap powering the circuit will look for all practical intents and purposes like the battery powering the circuit, with the added bonus that you know the current.  It will not be identical - the output impedance of the cap will be much lower than the already low output impedance of the battery.  The low output impedance of the cap simulating the battery is what makes the spikes disappear and just become the barely perceptible ripples that I already referred to.

MileHigh

So this is a experimental method of measuring current to a battery that has never been used or documented ...... this is hard to believe ..... is there some documentation to back this method never before used up ??

Fuzzy   

[poynt99]

The resistor is above the table 2" you can see glass tube behind it and that is not a stopper there is a plastic ring on the end of the stick as a example to support the 1" diameter opening in the center of the resistor to hold it more upright

High Definition Image

http://i276.photobucket.com/albums/kk15/fuzzytomcat/Picture041.jpg

Fuzzy 

Is the upper end completely open or partially blocked by the plastic ring?

It appears there is something inside the upper end of the tube.

.99

[fuzzytomcat]

Is the upper end completely open or partially blocked by the plastic ring?

It appears there is something inside the upper end of the tube.

.99

There is a plastic ring just like the one on the end of the stick above the resistor and it has a 1/2" diameter hole in it and 1" in diameter. I am not using this method now .... but am hanging the resistor on the same stick horizontally on a string 3" above the surface with #5-1/2 rubber stoppers in the ends and will be using this method from now on and will be posting photos of the set up in a future post

Glen