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Overunity Machines Forum



Partnered Output Coils - Free Energy

Started by EMJunkie, January 16, 2015, 12:08:38 AM

Previous topic - Next topic

0 Members and 9 Guests are viewing this topic.

tinman

Quote from: MarkE on June 20, 2015, 10:13:43 PM
Tinman, the power that matters is the power that is drawn from the power supply and the power that is applied to the load.  Do you have measurements of: voltage and current from the battery with and without the lamp connected, in addition to the voltage across and the current into the lamp?

All this i showed clearly in the clip,so i am not sure what you guys are not seeing here?.
I also went through the whole setup before i even started the motor,showing where the scope probes were connected,and which amp meter was showing current to each part of the circuit.

picowatt

Quote from: tinman on June 20, 2015, 10:56:31 PM
PW
Your post says .222 amps,not 2.222 amps lol.
That is what had me confused.

That's because that is what i thought I saw.  As I said, cleaned the glasses and had another go at the video.  All is good.

Does connecting one side of the motor/gen windings thru the scope grounds as you do have any effect on your amperage readings? (i.e., are your current measurements essentially the same with or without the scope grounds connected?)

Also, did you have a bat charger connected to the battery during the test?  If so, do your amperage measurements remain essentially the same when you disconnect the charger AND the scope grounds?

Have you swapped your amp meters to confirm similar measurements either way?

PW

tinman

Quote from: picowatt on June 20, 2015, 11:05:20 PM
That's because that is what i thought I saw.  As I said, cleaned the glasses and had another go at the video.  All is good.


PW

Quote
QuoteDoes connecting one side of the motor/gen windings thru the scope grounds as you do have any effect on your amperage readings? (i.e., are your current measurements essentially the same with or without the scope grounds connected?)

The scope has no effect at all on the operation or measurements of the system. The scope is ground isolated.

QuoteAlso, did you have a bat charger connected to the battery during the test?  If so, do your amperage measurements remain essentially the same when you disconnect the charger AND the scope grounds?

Yes,the battery is being charged via the UPS.
Yes,current on both input and output remain the same when the UPS is switched off,and unpluged from the mains-->battery will slowly drain down(over hours),and current will also slowly decrease as battery voltage dose.

QuoteHave you swapped your amp meters to confirm similar measurements either way?

Always do-with every device i build.

Will be adding another cap across the globe today to try and get the voltage across the globe more stable-just to eliminate DMM error. But when i use my power supply to get 10.6 volts DC across the globe,the DMM amp meter shows 1.62 amps. So the DMM is reading very close to correct.

MileHigh

Timnan:

A box that says "shorting circuit" is not a valid part of your electrical schematic.  You can put an extra 15% into your efforts to make your presentation clear and comprehensible.  I flat-out refuse to invest 500% more energy on my side into understanding your circuit than I should have to because you are too lazy to present your data properly.  You already see the questions being posed to you to try to fill in the holes.

I will leave you in the excellent hands of Mark and PW.

MileHigh

MarkE

Quote from: tinman on June 20, 2015, 10:48:07 PM
Below is the schematic you asked for. There are parts left out. They are not electrical as such,but are vital to the operation and performance of the device.The schematic below shows all electrical connections and test measurement points. There are no ground loops or any other type of something going on here,as it operates just the same with the scope disconnected.

Im not going to open another thread,as it will just be a thread without information to the workings of the device-->and what good is that. MH asked to see what i have,and MarkE said that would be fine to place here-->so here it is. As i am using the bucking coil effect(although in a mechanical situation),i see no reason why things just can stay right here on this thread,as i really dont have much more to show-->other than the base model i am willing to share-->the building blocks of which the device is made from. People will just have to use there own brains,and put the missing pieces in place.

I have spent many hours last night looking at all the information available on the mystical lockridge device. And as much as i hate to say it,it looks like that is !almost! exactly what i have built,although i cant find exact plan's as to how the lockridge device is built,but more so what others in other places have been basing there builds around. I think they are missing a vital component though.

Most say that if you stretch or compress a spring ,when you release it,you only get back as much energy as you used to stretch or compress it in the first place. I dont think they take into account the concussive wave created around that spring when released. With magnetic fields you get two things happen which act much the same as that spring. You get electrical forces along with mechanical forces,and both these forces create concussive waves. In this situation(the RT) you use a primary electrical force to create a secondary electrical force,and that very same primary electrical force is also creating a mechanical force at the same time. The secondary electrical force also add to the mechanical force,and the mechanical force generates/adds to the secondary electrical force-->this is the concussive force.
Thanks for posting that diagram.  Depending on what is in the circuitry that you would like to keep private (and I am not asking to see it) there is the possibility of a ground loop if you connect both scope probe commons to the places shown at the same time.  What I suggest that you do for your own peace of mind is:

Use one meter to measure current, and the other to measure DC voltage.  If you want add a capacitor wired close to the motor terminals to suppress ripple.  A 100uF 35V in parallel with a 0.1uF 50V as close to the motor as possible will get rid of most of the motor spikes that might upset the meter reading.  You should find that the voltage is quite stable.  Then move the meters over to the lamp as you have shown.  You've already got the electrolytic capacitor there.  You can add the 0.1uF capacitor to knock down spikes. 

You can look at either the one or the other with one scope channel to see that the voltage is basically steady, but do not connect both scope channels at the same time.  See what your meters tell you with the lamp connected and unconnected.  See if your instruments still tell you that the lamp gets more power than you draw from the power source.