Overunity.com Archives is Temporarily on Read Mode Only!



Free Energy will change the World - Free Energy will stop Climate Change - Free Energy will give us hope
and we will not surrender until free energy will be enabled all over the world, to power planes, cars, ships and trains.
Free energy will help the poor to become independent of needing expensive fuels.
So all in all Free energy will bring far more peace to the world than any other invention has already brought to the world.
Those beautiful words were written by Stefan Hartmann/Owner/Admin at overunity.com
Unfortunately now, Stefan Hartmann is very ill and He needs our help
Stefan wanted that I have all these massive data to get it back online
even being as ill as Stefan is, he transferred all databases and folders
that without his help, this Forum Archives would have never been published here
so, please, as the Webmaster and Creator of these Archives, I am asking that you help him
by making a donation on the Paypal Button above.
You can visit us or register at my main site at:
Overunity Machines Forum



COP 20.00 (2000%) Times, Reactive Power Energy Source Generator,

Started by synchro1, May 07, 2014, 01:25:54 PM

Previous topic - Next topic

0 Members and 49 Guests are viewing this topic.

Jdo300

Here's yet another method to accomplish AC energy recovery with series tank circuits. In this simulation, rather than doing series-parallel cap switching, you can also take a single capacitor and simply reverse the polarity of the leads every quarter cycle. The following simulation illustrates the idea with an unloaded tank circuit.

$ 1 4.9999999999999996E-6 13.654669808981877 40 5.0 50
v 384 256 384 128 0 1 60.0 177.0 0.0 0.0 0.5
T 448 160 544 224 0 0.1 1.0 -7.524329192899012 3.2365834539612788 0.9999
w 384 128 448 128 0
w 448 128 448 160 0
w 448 224 448 256 0
w 544 160 544 128 0
w 544 128 608 128 0
r 608 128 704 128 0 24.0
w 544 224 544 256 0
r 384 256 448 256 0 0.01
p 544 224 544 160 0
l 544 256 704 256 0 0.1 3.23658345396128
c 816 160 816 224 0 7.036199999999999E-5 95.90704570493776
159 704 256 768 256 0 0.1 1.0E10
159 768 128 704 128 0 0.1 1.0E10
159 704 160 768 160 0 0.1 1.0E10
159 768 224 704 224 0 0.1 1.0E10
w 704 224 704 256 0
w 704 160 704 128 0
w 768 128 816 128 0
w 816 128 816 160 0
w 768 256 816 256 0
w 816 256 816 224 0
w 768 224 800 160 0
w 768 160 800 224 0
w 800 224 816 224 0
w 800 160 816 160 0
w 736 112 736 80 0
w 736 80 864 80 0
w 736 272 736 336 0
w 640 336 736 336 0
w 736 336 864 336 0
w 864 336 864 80 0
w 736 208 736 192 0
w 736 176 736 192 0
w 736 192 672 192 0
w 672 192 672 400 0
w 608 128 608 80 0
w 704 128 704 80 0
s 608 80 704 80 0 0 false
w 480 352 496 352 0
150 368 400 480 400 0 2 0.0
150 368 320 480 320 0 2 5.0
152 544 336 640 336 0 2 5.0
w 480 464 368 464 0
x 137 474 281 480 0 24 Switching EN
I 496 352 544 352 0 0.5
w 480 352 480 464 0
w 368 336 368 416 0
w 368 464 368 416 0
w 480 320 544 320 0
L 368 464 304 464 0 1 false 5.0 0.0
x 164 391 272 397 0 24 Discharge
x 192 312 271 318 0 24 Charge
R 368 304 304 304 1 2 120.0 2.5 2.5 0.0 0.5
R 368 384 304 384 1 2 120.0 2.5 2.5 3.141592653589793 0.5
152 544 400 640 400 0 2 0.0
w 544 416 544 400 0
w 544 400 544 384 0
w 544 400 480 400 0
w 640 400 672 400 0
g 384 256 384 272 0
o 0 32 0 35 299.3155353253689 11.972621413014757 0 -1
o 0 32 1 291 1197.2621413014756 9.765625E-55 1 -1
o 12 32 0 34 149.65776766268445 5.986310706507378 2 -1
o 12 32 0 33 149.65776766268445 5.986310706507378 2 -1
o 7 32 1 35 7.62939453125E-5 9.765625E-5 3 -1

If you set the Enable input to low, this disables the switching network and you will see that the tuned tank circuit will begin to resonate like normal, while the source voltage and current go back in phase. But with the switching network activated, the energy in the circuit is always forced back into the source to keep the phase angle at 90 degrees. This can be accomplished with four bi-directional switches and two control signals.

- Jason

hartiberlin

Hi Jason,
Many thanks for the sims have to go to my PC later and reinstall Java to check these out.
Maybe you can also post screenshots of the scopeshots output for thode who dont get tge simulator to work ? Many thanks.
@Barry,  they are using 4 electrolytic caps , so 2 pairs. Each pair is wired -++- so to get an unpolarized cap , so they can use AC with electrolytic caps...
Stefan Hartmann, Moderator of the overunity.com forum

Jdo300

Hi Stefan,

Sure, I'll go back and add the screenshots for the previous posts.

Here's the previous simulation modified with a transformer. Remember that when using a transformer to couple the load, you can effectively make the look "look" as big or small as you like (impedance matching). The smaller the load looks to the circuit, the more reactive energy will be able to build up. This is a nice trick you can use to get more percent of the active power in reactive form. When you do this, the circuit is less affected by the presence of the load. as in the following situation.

$ 1 4.9999999999999996E-6 35.60246606707791 40 5.0 50
v 336 336 336 208 0 1 60.0 177.0 0.0 0.0 0.5
T 400 240 496 304 0 0.1 1.0 -7.415885983193569 3.6579084260104295 0.9999
w 336 208 400 208 0
w 400 208 400 240 0
w 400 304 400 336 0
w 496 240 496 208 0
w 496 208 560 208 0
r 752 64 752 128 0 24.0
w 496 304 496 336 0
r 336 336 400 336 0 0.01
p 496 304 496 240 0
l 576 128 656 128 0 0.1 -1.3867310077587525E-16
c 768 240 768 304 0 7.036199999999999E-5 89.31556694227751
159 656 336 720 336 0 0.1 1.0E10
159 720 208 656 208 0 0.1 1.0E10
159 656 240 720 240 0 0.1 1.0E10
159 720 304 656 304 0 0.1 1.0E10
w 656 304 656 336 0
w 656 240 656 208 0
w 720 208 768 208 0
w 768 208 768 240 0
w 720 336 768 336 0
w 768 336 768 304 0
w 720 304 752 240 0
w 720 240 752 304 0
w 752 304 768 304 0
w 752 240 768 240 0
w 688 192 688 160 0
w 688 160 816 160 0
w 688 352 688 416 0
w 592 416 688 416 0
w 688 416 816 416 0
w 816 416 816 160 0
w 688 288 688 272 0
w 688 256 688 272 0
w 688 272 624 272 0
w 624 272 624 480 0
w 560 208 560 192 0
w 656 208 656 128 0
w 432 432 448 432 0
150 320 480 432 480 0 2 5.0
150 320 400 432 400 0 2 0.0
152 496 416 592 416 0 2 0.0
w 432 544 320 544 0
x 89 554 233 560 0 24 Switching EN
I 448 432 496 432 0 0.5
w 432 432 432 544 0
w 320 416 320 496 0
w 320 544 320 496 0
w 432 400 496 400 0
L 320 544 256 544 0 1 false 5.0 0.0
x 116 471 224 477 0 24 Discharge
x 144 392 223 398 0 24 Charge
R 320 384 256 384 1 2 120.0 2.5 2.5 0.0 0.5
R 320 464 256 464 1 2 120.0 2.5 2.5 3.141592653589793 0.5
152 496 480 592 480 0 2 5.0
w 496 496 496 480 0
w 496 480 496 464 0
w 496 480 432 480 0
w 592 480 624 480 0
g 336 336 336 352 0
T 656 64 752 128 0 0.1 0.7 -3.657908426010432 1.3241671059262992 0.5
S 560 192 560 128 0 0 false 0
w 544 64 544 128 0
w 544 64 656 64 0
w 496 336 656 336 0
o 0 32 0 35 299.3155353253689 23.945242826029514 0 -1
o 0 32 1 291 2394.524282602951 9.765625E-55 1 -1
o 12 32 0 34 261.87124863169134 2.618712486316914 2 -1
o 12 32 0 33 130.93562431584567 5.237424972633828 2 -1
o 7 32 1 35 149.65776766268445 9.765625E-55 3 -1

Playing with the turns ratio and coupling coefficient are the keys here along with having the circuit properly tuned. Notice that the waveforms across the capacitor almost match identically with what was shown in the original SERPS video.

- Jason O

Jdo300

One other note. In the presentation video, Jim Murray shows a screenshot of one of his early SERPS prototypes, and you can clearly see that there are only two, electrolytic, capacitors connected in the circuit. If they are connected back to back in order to handle the AC current, it's possible that he could have been switching only a single equivalent capacitor in his early units.

- Jason O

listener191

Hi Stefan,

The variac is feeding the transformer, which sits behind the caps. The non saturatable inductor is to the right. The transformer provides a power source with a reasonably consistant inductive reactance. The line supply reactance will depend on what other devices are connected and the length of  connecting cable to the substation/line transformer etc.

Three switches would give you ability to parallel/series two caps (non polarized made from two electrolytics back to back), which would work if you were charging and discharging in the same half cycle however, that is not what is shown in the presentation material. Slide 42 shows the energy captured in the positive half cycle being returned in the negative half cycle.

By the way I am a practical person, not a theorist.

As you don't know me, I have attached a couple of photos of my Dave Squires motor replication to demonstrate that I am a replicator.
I also know how to switch high voltage/inductive loads without damaging IGBTS, but not using Babcocks complicated switching.


Regards

Barry