The definition of over unity for an electrical circuit is the energy/ power input measured in Joules or Watts compared to a greater amount of

energy/ power measured at the output of the circuit. Where in this video have you properly measured the energy/ power input compared to energy/ power at the output of the circuit?

Volts times Amps equals Watts and 1 wattsecond = 1 joule

can you use this for a electric car so that it can recharge itself?

Looks perfect, congratulations!

Could you please tell some more about a transformer. Three-bottomness is not anough to figure how it works!

Many thanks, Mieow.

Hi, can you sell it to me?

(cont.-pt3) If you get a constant increase in drive power (and resulting back-EMF), you should be able to tap off of the capacitors with a regulator to run an external load.

(Obviously your "HEX controller" needs its input voltage regulated too)

At the power levels you have now (shown in videos) you are well below the "possible" output power. That large of a toroid core should be capable of well over 1,000 watts (with sufficiently large wire gauge, and the right MOSFETs)

thanks for the mail man. yes, I have had a runaway situation a few times before already (called avalanche), which is why I limit the input power to a regulated 12V battery :). I managed to dimm all the lights in my house before, luckily I stopped it just in time... Anyway, thanks for the comments! As time goes by I am increasing the charge rate, and discovering more and more about this, I will have to make some new videos soon! keep well!

(cont.-pt2 - adding to the idea of using large capacitors instead of a battery as the supply/load) As the V increases on the caps, the drive voltage (and thereby current) to the primaries increases, resulting in increased back-EMF captured, increasing the V on the caps, and so on.

This could result in a runaway condition if it truly is working like we all hope it is... that's why I would be VERY careful, watch the Supply/load Voltage, being sure it doesn't exceed your MOSFET breakdown voltage.

Just found this on 2/10/20 - got excited that it coincides with a lot of my "mental build" I've been considering, Can you run it with just 1 or 2 phases, and show what the results are... in other words, show the benefit of 3 phases? Also, have u considered starting the process w/ a stack of 50-100V elect. caps parallel to the battery, then disconnect the battery- leaving only the caps? Have a light bulb w/switch ready across the caps in case the V goes too high- positive feedback effect. (cont.)

is hte hex controller available as a kit anyplace???

watkykjy1, I understand the toroid coil you used has a u-metal core.

I am thinking of using welding wire to wind a magnetic core for such a toroid coil. Any comments or suggestions?

Hi. I'll 2nd panayisz question. Have you measured any temperature cooling effects?

Amazing. Love those scalar waves....

Exactly... Lol!!

fantastic charger!! Well done man.

Question have you used one of those laser infra red thermometers to determine any cold spots on the hex controller coils or battery when charging the battery . The example I am thinking of is the g field motor that blows cold air when working?

Hi watkykjy1,

I understand the 120 degree timing for the 101 B.B. cell, but does that still apply to the battery charging? In my mind it does not. Have you actually tried it? Sorry I'm just trying to get a better understanding of how it works. Also do I have to contact B.B. directly to purchase a Hex board? Thank you, HT

It's the same technology mate, so the 120 degrees are still neccesary. Think of it as creating a swirling vortex of energy. the only way to do that with the 3 primaries wound at 120 degrees is by pulsing them in a 120 degrees fashion, so this is the starting point of where we guild up the energy to a state that we only need very small amounts of input to "maintain" the vortex, so to speak...

Great Job watkykjy1!

Is it necessary to pulse each primary seperately or could you put all three on one channel either in sieres or parallel?

Thanks,

Hi there,

Thanks for the compliment! You cannot put all three on one channel in series or parallel, as that would throw off the 120 degree phase timing, and the toroid is wound for that, so doing it any other way would not work...

Hi,

thumbs up!

how could one help?

Hi Johan i am glad to see your back, i see your instructional participation here is perfect like last time, thank you so much for your expensive efforts my friend. I am positive this will not be surface charge please do a C20 discharge on it with a load resistor afterward if you can manage it, this will silence all the skeptics out there. Who needs a 101 plate cell you can go electric now :)

Thanks Ash! I understand the problem of having to deal with skeptics, and unfortunately there are those out there that simply don't want to believe, but on the other hand, I use this hex controller almost every day to charge the battery of my baby girl's toy car, and she does a very good job of load testing it during the day again, so in my mind, I have all the proof I can ever need :):)

Thanks mate, glad to see you have load tested it, now complete data is there for all to see. Well done man.

That is awesome! Have you collected any more data in terms of numbers? Like what is the charge rate, how much total power the battery can output (voltage * Ampere-hours)? Will it charge a battery that won't accept a conventional charge?

Thanks for the video!

Hay Dude wat het van jou geword jys nooit meer op die net nie ons mis jou :)

Hoy mate!

Ek het net skype oor, die res word geblock by die werk! Jou troue is mos amper? Gooi bietjie mail my kant toe. Ek is by baas teen hixnet punt company punt suid afrika (hoop jy verstaan dit)! Jou troue is mos nou sometime ook? Gooi kole pappie, groete daai kant tot ons weer gesels!

Wow!! You get me impressed!!

Hey, what if I use a 555 with extremely low duty cycle?

Will it works?

Thanks!!

I'm pretty sure 555's won't cut it. You need extremely rapid opening and closing of the circuit to get the effect. I know with Bob Boyce's pwm3g circuit the effect can be had at 2-2.5uS. Please Please Please go get Tesla's entire patent collection on the piratebay or wherever to learn more. also look up youtube user Palsness and his website for critical Tesla lectures on the phenomenon. It's all about the rate of change di/dt not so much the frequency or pressure (V).

Thanks for the reply!!

Well, I'm actually not very good in electronics... Lol!!

Thanks for linking me to the Tesla's work and Palsness...

According to your opinion, is there any simple way to get those sharp waveform using simple circuit?

Thanks again mate!! :)

Really the easiest way is going to be a simple microcontroller just like this. Tesla used high speed motors with many contact points on a circle which worked to a certain point then I think if I remember correctly he switched over to other means. Boyce's PWM3G circuit is available to the public and is prolly the best geared out of the box for this task. It's a matter of making sure the component specs are exceedingly fast.

Hey there,

Erm, as far as I know this is probably the only circuit that has been built specifically for this fast rise and fall times. One could potentially do it with other microprocessors, etc as well, but this is the only circuit I know of that can do this :)

Hi mate!!

Well, actually, I know nothing about microprocessors... I don't even get any chance to look at it... Lol!! (Maybe you could link me to a 'beginners websites?')

Hey, I just tried a very low duty cycle 555 timer circuit... I get to work at approx. 5 uS...

When I hook it up to my mosfet, it seems like its drawing very little amp...

Maybe my mosfet wasnt fast enough...

Could you share your mosfet number?

Thanks again mate!!

This cirucit uses the IRF540z mosfets with UCC27322P mosfet drivers. Let me know what happens if you use those..

Thanks a lot mate!!