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Now let's look at the Kapanadze system, everyone says his name.
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So here's just, one particular diagram that is better than the other.
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This is just one that had the Russian on it and had a lot less detail.
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So I just want to go over a couple of things here.
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There's been a lot of replications of this, and it really heavily depends upon the ground system.
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And I want to just say a couple of things about this.
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So M.O.T Microwave Oven Transformer be very careful, It's a deadly device.
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it's will kill you.
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So don't be playing around with this stuff guys.
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Unless you really know what you're doing.
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So you have basic, transformer that you're driving.
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You can drive it with, pulse width modulator, or you can use a ZVS system.
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So this is not critical what you use here.
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Again, high voltage output and, high frequency.
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You have your spark gap.
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So notice the coil arrangements here.
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So this is all wrapped around one tube.
(There are many varations. It is not my intention to determine the best ones but rather to show the similarities between these various inventor's systems)
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In this case, sometimes you have multiple tubes.
(There are many varations. It is not my intention to determine the best ones but rather to show the similarities between these various inventor's systems)
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Different coils are wrapped in different places.
(There are many varations. It is not my intention to determine the best ones but rather to show the similarities between these various inventor's systems)
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So it's a good idea to actually wrap on
(There are many varations. It is not my intention to determine the best ones but rather to show the similarities between these various inventor's systems)
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in such a way that you can actually move them.
(There are many varations. It is not my intention to determine the best ones but rather to show the similarities between these various inventor's systems)
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So are multiple tubes, and, I just want to say a few things
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that I've found out in this particular system
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from others who have replicated it.
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so notice again, the caduceus coil arrangement here
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counterclockwise 20,30 at this position
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over to 80 to 90 turns clockwise.
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And then over here, this is kind of a.
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A resonant, critical coil arrangement right here.
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Six turns counterclockwise. So...
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What you have to realize it's not so many turns, but it's the length of wire, and that's where people go wrong,
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I believe in this particular setup.
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And then, of course, the positioning of where the coils are positioned in relation to each other.
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So now notice here.
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So this becomes like the primary and secondary.
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In one system.
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But notice also this wire that goes through the tube
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and those the big thick black wire
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with all the captains assistance you always have
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the big wire going through here.
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Consider this as a capacitor.
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You got a look at the insulation as a capacitance of the insulation
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on the primaries and this as a secondary.
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So even one wire or a half of turn of wire becomes a secondary.
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Or you can look at is the primary if you want to look at it that way.
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So again like I said, if the earth is the Real source that you're taking from.
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And then this would be considered the primary.
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So what do you find in the captaincy system if you look carefully at their pitchers?
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Notice, the easiest way to make a capacitor is what?
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Answer the question.
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What is the easiest way?
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Styrofoam.
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Making styrofoam cups.
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So you will notice in capacitance systems.
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Several pictures will show.
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Styrofoam or polystyrene foam.
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Between plates.
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Or within the tube itself.
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There's another picture to where one of the wires comes up.
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I'll see if I can find it here.
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So "Romero UK" and "England" has his own forum and he brought this to us.
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So this is the one capacitance system.
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So he points out that this is a copper tube, ok?
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You just have to think of that is a wire big soldered to the other copper tube.
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but what he said was "no" this tape is covering up the fact that this wire is going through the copper tube.
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So what does that tell you? It's becoming a capacitor.
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So this is not just a wire.
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He's enhancing the system by adding a capacitance value to this.
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You know, you've got an inner wire, an outer wire and insulation in between.
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And then he shows, a couple of other pictures.
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His particular model where he was adding these sheets.
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Between either foil or...
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...Copper disks.
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And so he showed...
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A couple of these models. Not in this picture.
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The cheapest form of capacitor.
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Those are the two significant things about the Kapanadze system.
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That the wire connects to the ground,
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and it's a good thick wire going through the center of the tube.
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So the insulation factor in the wires,
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the orientation of the wires, and the caduceus arrangement,
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as well as the capacitance in the inductors themselves,
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are key elements in this creating resonance.
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It's just going to enhance how much you get out of it.
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But with this particular vendor, he's not some great skilled guy that knows all the math.
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And he he can make the system work
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without having to use even a solar scope, I believe.
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Or, you can just wind it and just do it.
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So it's not as hard as people think.
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There's several key things to do just right.
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But you can see his videos.
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I think some of these things are hidden.
(My aim in this video is not to get people to do any particular system but rather to get a feel for how people have done these processes, to get the big picture and see your options)
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But again, where's this coming from?
This is coming from the video system.
(My aim in this video is not to get people to do any particular system but rather to get a feel for how people have done these processes, to get the big picture and see your options)
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so to get the outputs that Kapanadze and Don Smith are getting, they will not tell you everything.
(My aim in this video is not to get people to do any particular system but rather to get a feel for how people have done these processes, to get the big picture and see your options)
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Don Smith admits that he shows you this system.
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A guy has just replicated it the other day, like two weeks ago,
(Gerson Paiva https://youtu.be/RFSQWUTDQF0)
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I thought it was Don Smith's actual board because he made it look exactly the same, and he demonstrated it.
(Gerson Paiva https://youtu.be/RFSQWUTDQF0)
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And, the only thing I don't know about is the diodes, which ones he was using.
(Gerson Paiva https://youtu.be/RFSQWUTDQF0)
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If that guy was able to find the exact diodes that Dan Smith was using.
(Gerson Paiva https://youtu.be/RFSQWUTDQF0)
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Now, here's the thing I want to say.
(Also the neon transforme is no longer made so there are some uncertainties about using newer types)
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I worked with famous inventors, who you mentioned in this video, but, one thing I learned was...
(Also the neon transforme is no longer made so there are some uncertainties about using newer types)
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I'm dealing with thousands of people over all my years.
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I've learned, especially with adventures, that you have to learn to read them.
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And I'll say this one particular inventor is very difficult to understand.
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He speaks in his own particular context, and you want to really answer your questions that you asked.
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So you got to realize.
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People give out what they want to give out.
You have to learn to read them.
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You have to learn to read between the lines with Don Smith.
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He had several strokes by the time he gave us the videos that we had 10 years ago, 15, 20 years ago.
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He already had these, several strokes.
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You can see it's drilling.
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I didn't work with Don Smith "nice" I don't wanna talking, but.
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He admits what he's describing in this particular system, in the one case he describes.
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This this particular capacitor as 10,000V.
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It was right in front of him.
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You can't listen to everything he says is absolutely accurate, because sometimes it's just speaking from memory.
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And you have to read what's important, or you have to listen to what's important.
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When he says, all this is not important, you can do this without...
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the...
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Without this.
(He said you can do this solid state)
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He mentioned several different things you can do with that.
(He said you can do this solid state)
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You can see, no coil here at all in one of the systems.
(He said you can do this solid state)
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He just goes from one transformer to another with a spark.
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What does that remind you of?
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I wonder if it reminds you of this.
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Because that's exactly what it is.
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In other words, he knew this.
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He doesn't give any credit to Carlos F. Benitez.
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He says he didn't know Tesla did this sort of stuff.
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I guess credit to Tesla. He says he didn't get it from Tesla.
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you obviously worked in a lot of different industry to know.
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Some of these things he talks about having the old TV was a free energy device.
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he mentions that several other devices.
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He says they are over unity if you understand them
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and you can utilize them.
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He obviously talked to people and was influenced somehow to come up with the system or it could be
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I've been very intuitive to just figure it out. What somebody already figured out 80 years before him, with Benitez system.
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In other cases, you have to learn how to read these people is what I'm trying to say.
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It's learned how to read Tesla carefully.
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And when you listen Don Smith, he talks about what's important, what's not.
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And he says you could do away with some of these things.
For example, this doesn't need to be a center tap transformer.
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you could just have one diode here...
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He comes back to the ground terminal...
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There and...
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He talks about...
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If you change these values, you could get a higher output.
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He says this is not needed at all,
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because, in fact, the battery charging.
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So he's running off of inverter here, right?
(The choke is not need to recharge the battery becauser the primary side of the circuit will do that when it creates a standing wave. But it's still needed for the main output. But again, we are to avoid overestimating every detail.)
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140W inverter.
(The choke is not need to recharge the battery becauser the primary side of the circuit will do that when it creates a standing wave. But it's still needed for the main output. But again, we are to avoid overestimating every detail.)
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Cheap RadioShack inverter.
(The choke is not need to recharge the battery becauser the primary side of the circuit will do that when it creates a standing wave. But it's still needed for the main output. But again, we are to avoid overestimating every detail.)
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He's got a real STAC or a variac light dimmer switch that he's cutting the power in half.
(The choke is not need to recharge the battery becauser the primary side of the circuit will do that when it creates a standing wave. But it's still needed for the main output. But again, we are to avoid overestimating every detail.)
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So he's cut the voltage down so it doesn't want to run at 9000V.
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He wants to run, 4000.
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If he wants it higher. He said he has to increase all of these values to produce more power.
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So he could, with 140 watt without this limitation, set this whole thing up even higher than 6000W.
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He said some pretty high numbers though in his video, but again, some of it sounded like some memories, some of it in some very accurate some of the components he was talking about...
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I don't think this particular value of 6000V was necessary.
(He talks about that model is several videos so it's important to look at all of them to get the fuller picture.)
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It's probably the kind of things you had on hand.
(He talks about that model is several videos so it's important to look at all of them to get the fuller picture.)
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Like, I use this all the time.
(He talks about that model is several videos so it's important to look at all of them to get the fuller picture.)
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Not that I have to.
(He talks about that model is several videos so it's important to look at all of them to get the fuller picture.)
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You know, obviously there need to be possibly more than 2000V.
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But when you start finding these parts from your participants,
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you take what you can use and just throw it on there,
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and then people will go on Google Gaga about a particular value, which may not be critical.
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So he says, don't get too hung over on these,
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particular values here.
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He did say you had to put this on to make the system, in the sweet spot or in resonance.
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He said that this creates its own resonance on this side.
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And, there is a particular diagram and some guys trying to debunk
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every free energy system out there or some of these guys,
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and they make a big deal about this one particular diagram
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that has this capacitor and the diodes on the other side of this spark gap.
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And they can't do what it's saying because it's incorrect to draw.
(There is definitely many mistaken schematics floating around, and who knows why they were put out as they are)
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For whatever reason that schematic are out.
This one is accurate and works, the other one didn't.
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but again, when you look at patterns and you look at some things, therefore people who know.
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They aren't for "Joe Schmoe" who just now landing on electronics.
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and pick up and just do, and then not know what they're doing,
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because you shouldn't be doing that if you don't know basic electronics, you shouldn't be playing with this stuff,
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because that's why I give you a basic kits I give you.
(These particular system are very dangerous as they are High Voltage and Amperage)
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These systems so that you can start playing with it and start getting understanding with it and their failsafe.
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You can see over unity very easily, within a half an hour.
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This particular system two.
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You can do this in minutes, you know.
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I show that I focused on that to educate people.
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But again on Don Smith system higher voltage.
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You're you're asking for trouble with a danger to yourself just from a conventional level.
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You can really hurt yourself with a high power transformer.
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Even with low current milliamps, you can still cause a lot of damage, even from a conventional aspect perspective.
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But you can also do other damage to your body that is not really, understandable conventional terms these days.
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You can harm your organs and cause a lot of problems, internally with your body, as well as destroy your electronics.
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So this sort of system needs to be encased.
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If you ever make this system, you need to understand where I'm going with...
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That will probably be my next video in a couple of months.
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I did fully in clay encase this, and I actually made an energy receiver as well.
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I did that with the violet ray device to I'm putting the violet ray device into my special system.
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You'll laugh when I tell you what it is.
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But I'm not going to tell it right now.
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I was able to get a lot of usable volts out of this system.
(I need to fully develop it before I recommend it or make it as a product)
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that is normally going off in all directions and affecting you biologically, affecting all, the local environment.
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So this kind of system has the spark app.
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It needs to have a type of grid tube, but even not just in the spark gap itself, but across all the inductors.
(The open spark gap creates ozone and other harmful changes to the local enviroment so there needs to be safeguards like enclosed and shielded gaps) -GDT-
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Because we're dealing with a disruptive discharge, more power it creates, the bigger is radiation area.
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So don't play with fire.
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Don't be tempted by the great outcome output of the system.
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If you are going to do this system and there aren't enclosed it, put it far away,
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but you don't go near it
208
00:17:32,487 --> 00:17:37,443
make it like a transformer that you see, high voltage system
209
00:17:37,444 --> 00:17:40,943
keep far away from it, like your high voltage lines.
210
00:17:41,390 --> 00:17:45,785
And then all this radiation, different type of radiation.
211
00:17:45,786 --> 00:17:54,259
So that is, what I want to talk about again, notice the coil arrangements going in this direction and that direction.
212
00:17:54,860 --> 00:18:01,069
Again, you don't really even need the coil because you have the, other system.
213
00:18:01,070 --> 00:18:02,900
You can ground this.
214
00:18:03,020 --> 00:18:08,359
This is where the ground connection was, that he said, he mentioned this several times.
215
00:18:09,110 --> 00:18:15,230
There is no none is shown in this diagram here, but right there in the center tab.
216
00:18:15,231 --> 00:18:16,285
(There is also some debate about grounding the center tap on the neon transformer)
217
00:18:16,286 --> 00:18:18,157
And I'll show you the picture again.
(There is also some debate about grounding the center tap on the neon transformer)
218
00:18:18,158 --> 00:18:20,971
(There is also some debate about grounding the center tap on the neon transformer)
219
00:18:25,340 --> 00:18:27,614
So let's look at a close up.
220
00:18:31,320 --> 00:18:32,320
No.
221
00:18:34,220 --> 00:18:36,343
So there's one angle of it.
222
00:18:48,043 --> 00:18:49,986
This jumper may not be right
223
00:18:52,290 --> 00:18:54,914
So there's a center tap coming right here.
224
00:18:55,050 --> 00:18:57,843
There's the capacitor, the tune capacitor.
225
00:18:58,050 --> 00:18:59,886
And these are diodes.
226
00:18:59,940 --> 00:19:01,657
There's also diodes here.
227
00:19:01,800 --> 00:19:03,543
There's a spark cap.
228
00:19:03,690 --> 00:19:06,179
There's a neon sign transformer.
229
00:19:07,170 --> 00:19:13,619
This is the, stepdown, dimmer rheostat.
(There are two types of dimmers depending on the neon transformer you use. Variac may not allow the NST to work)
230
00:19:13,620 --> 00:19:15,269
(There are two types of dimmers depending on the neon transformer you use. Variac may not allow the NST to work)
231
00:19:15,271 --> 00:19:18,214
Veriac type of or Dimmer here.
(There are two types of dimmers depending on the neon transformer you use. Variac may not allow the NST to work)
232
00:19:19,140 --> 00:19:21,000
Cheap RadioShack
233
00:19:21,690 --> 00:19:25,700
i'm assuming a, modified wave.
234
00:19:25,701 --> 00:19:29,189
Probably not even a pure sine wave is necessary.
235
00:19:29,640 --> 00:19:34,650
Again, don't get all caught up in the details.
236
00:19:34,860 --> 00:19:36,586
Like a great system.
237
00:19:36,720 --> 00:19:41,609
He's using the transformer... sorry, the 5000 watt.
238
00:19:43,770 --> 00:19:47,849
Inverter
239
00:19:48,943 --> 00:19:52,743
but he kind of simply stepped it up with another transformer.
240
00:19:53,490 --> 00:19:59,257
Just like, you know, you need a system or this system here.
241
00:20:04,640 --> 00:20:07,986
So that's that coil there.
242
00:20:09,830 --> 00:20:11,886
There's another angle, I have this choke.
243
00:20:12,080 --> 00:20:20,329
this was meant to charge battery, but he said in this video that the little battery being in the vicinity will charge itself up.
244
00:20:20,330 --> 00:20:23,600
So it's like a 7.5 hour 12 volt battery.
245
00:20:23,930 --> 00:20:33,380
And he did not need to actually use this choke, which was helpful to charge the battery back up as shown in this diagram here.
246
00:20:33,381 --> 00:20:38,779
(however it is necesary for the main output depending on what are you doing for the output)
247
00:20:38,780 --> 00:20:42,957
Right here, output to recharge inverter battery.
248
00:20:43,310 --> 00:20:45,114
so this is what we found.
249
00:20:45,200 --> 00:20:49,843
Batteries can charge up even in the vicinity.
250
00:20:50,390 --> 00:20:54,829
Like I said, with my zero point process, I can do that.
251
00:20:55,010 --> 00:21:00,157
So now let's look at maybe a couple other pictures.
252
00:21:01,990 --> 00:21:05,243
That was just something different.
253
00:21:06,670 --> 00:21:12,880
So again, this one right here in this picture is notice what's missing from this picture.
254
00:21:13,660 --> 00:21:18,043
You've got your inverter, so you got your input here.
255
00:21:18,430 --> 00:21:26,109
inverter going again to your high voltage going on to the bridge rectifier.
256
00:21:26,140 --> 00:21:28,729
You said these are just a four way bridge.
257
00:21:28,930 --> 00:21:34,343
You got two diodes in here, must be four diodes.
258
00:21:34,810 --> 00:21:37,810
then coming out through.
259
00:21:39,600 --> 00:21:42,869
(Part of this system is not shown where the other side of the transformer center tap and the big capacitor cable are connected)
260
00:21:42,871 --> 00:21:47,343
I see one wire here and one wire there, coming out through here.
(Part of this system is not shown where the other side of the transformer center tap and the big capacitor cable are connected)
261
00:21:47,970 --> 00:21:51,571
Anyway, these are some pretty serious caps.
262
00:21:51,750 --> 00:21:57,660
Three terminal caps, and, there's no coil.
263
00:21:59,520 --> 00:22:01,543
There is no coil here.
264
00:22:01,830 --> 00:22:05,243
Now, this was a special transformer as well.
265
00:22:05,310 --> 00:22:10,380
So you're going to get higher gains out of this transformer, but you still can use a regular transformer.
266
00:22:10,920 --> 00:22:13,157
That's important to understand.
267
00:22:13,290 --> 00:22:16,800
Like it seems like almost every one of Don Smith's.
268
00:22:20,000 --> 00:22:26,540
Systems use something like he said, he kept insisting that these particular diodes, you can't get them unless you can.
269
00:22:26,540 --> 00:22:29,029
For me, looks like these are exactly the same.
270
00:22:29,630 --> 00:22:34,699
But I think he was meaning you have a world of parts in order to get these. (25KV Diode)
271
00:22:34,700 --> 00:22:40,843
since his day, these parts are being available, and so,
272
00:22:40,844 --> 00:22:44,449
I don't think there's anything quite exotic in this particular model.
273
00:22:44,450 --> 00:22:54,690
But when you see one of these tubes in his one video where it's wrapped with PCR, material is a material, whatever you call it.
274
00:22:54,691 --> 00:22:56,869
(See second 30 https://www.youtube.com/watch?v=r573nf3-oWg)
275
00:22:56,870 --> 00:23:02,269
Then you can see that this was another gain,
another system was gain.
276
00:23:02,270 --> 00:23:05,343
And he uses that the same transformer.
277
00:23:06,800 --> 00:23:09,740
He's going to get a higher output.
278
00:23:10,490 --> 00:23:13,579
But he downplayed those things.
279
00:23:14,000 --> 00:23:15,429
Like In other words
(Not downplay but they were not absolutely necessary to make it work)
280
00:23:15,430 --> 00:23:19,099
while they may give you a couple of times over output
(Not downplay but they were not absolutely necessary to make it work)
281
00:23:19,100 --> 00:23:24,029
you still could get a reasonable output
(Not downplay but they were not absolutely necessary to make it work)
282
00:23:24,030 --> 00:23:28,114
from the normal way of doing it.
(Not downplay but they were not absolutely necessary to make it work)
283
00:23:28,400 --> 00:23:31,700
This particular model he talks about.
284
00:23:33,640 --> 00:23:36,429
This is basically like the...
285
00:23:38,870 --> 00:23:40,940
The MEG system.
286
00:23:46,130 --> 00:23:55,769
but he actually, by accident, it just used one wire around here.
287
00:23:56,100 --> 00:23:58,199
Instead to use 1 wire use 2
288
00:23:58,200 --> 00:24:06,479
and then he pointed the exces or extra wire up as an antenna, and he got many times more the output.
289
00:24:07,230 --> 00:24:12,300
So again, you have your neon sign transformer here.
290
00:24:12,490 --> 00:24:15,514
It's just pumping it up.
291
00:24:15,780 --> 00:24:21,343
And then I think that's the bridge rectifier or and that's it.
292
00:24:21,480 --> 00:24:23,929
Very basic system.
293
00:24:24,930 --> 00:24:29,970
So again this is all the needed system with adding a few.
294
00:24:32,730 --> 00:24:35,829
modifications here and there.
295
00:24:42,440 --> 00:24:48,700
So here's some different schematics that people have stumbled over.
296
00:24:49,340 --> 00:24:55,400
Trying to figure out what each part is is a pattern.
297
00:24:55,457 --> 00:25:06,229
There's another angle of that same system where you can see it's just clearly one diode here and one diode there as half bridge.
298
00:25:11,990 --> 00:25:14,186
Coming through there.
299
00:25:18,320 --> 00:25:21,486
Dangerous High voltage.
300
00:25:27,350 --> 00:25:29,014
this one.
301
00:25:32,670 --> 00:25:35,369
It's an interesting arrangement.
302
00:25:35,370 --> 00:25:41,069
Here's another Don Smith Rotating Magnetorestrictive Metal Wheel
303
00:25:42,210 --> 00:25:44,857
I can't even read now, I'm so tired.
304
00:25:45,360 --> 00:25:53,300
it's a metal wheel, but notice again that the coil arrangements, the capacitors, the transformer.
305
00:25:57,460 --> 00:26:00,371
that seven amp hour battery again.
306
00:26:01,570 --> 00:26:08,971
Here again is another description or diagram of... Here's something interesting to read.
307
00:26:09,029 --> 00:26:15,829
In this system input power is almost completely REACTIVE at RESONANCE with output in the load being real inphase, of course. Variation of the magnet positions will often result in an increase in the output without any change in the input. You will need two...
308
00:26:17,000 --> 00:26:23,459
So you got the coil coming in here, coming back around the same direction, going out to the load.
309
00:26:23,460 --> 00:26:27,000
Low power sine wave oscillator.
310
00:26:28,690 --> 00:26:30,243
And.
311
00:26:31,320 --> 00:26:35,519
You're creating this and you're getting again.
312
00:26:35,520 --> 00:26:42,539
The magnet configurations north, south, north, south and then the south pole right there.
313
00:26:42,540 --> 00:26:52,619
And this system input power is almost completely reactive at resonance with output in the load being real and in phase.
314
00:26:52,620 --> 00:26:59,940
Of course variation of the magnet positions will result in an increase in the output without any change in the input.
315
00:27:00,600 --> 00:27:05,243
So this is what we see, all these types of systems you get a sweet spot.
316
00:27:05,550 --> 00:27:11,114
you get to a point where you can load down, like I show on my motor systems,
317
00:27:11,115 --> 00:27:21,419
where we load down the generator coils to a certain extent and the motor speeds up and we short up the coils, the motor speeds up.
318
00:27:21,420 --> 00:27:23,820
If we remove the motor from the generator...
319
00:27:23,820 --> 00:27:28,886
Sorry, short out the generator coils, I meant to say. So we show in...
320
00:27:29,430 --> 00:27:36,029
If we remove the generator coils, the hole motor will be slower than shorted out generator coil.
321
00:27:36,840 --> 00:27:44,099
Now this is some people try and say, well... Because the generator coils there, it's acting as the load slowing down motor.
322
00:27:44,580 --> 00:27:56,309
But if we have a faster RPM faster, less amp draw without the generator coils in there and shorted, then my point is made.
323
00:27:56,310 --> 00:28:04,114
That's the way I made my motor to demonstrate that aspect of things, to show you that just like Tesla's picture
324
00:28:04,115 --> 00:28:08,271
where he was running up the...
325
00:28:10,530 --> 00:28:13,671
This particular feature here.
326
00:28:15,260 --> 00:28:17,043
And the like of his pictures.
327
00:28:19,930 --> 00:28:24,579
Where he's got the load shorted the copper bar.
328
00:28:25,880 --> 00:28:29,200
He's still running these loads.
329
00:28:30,560 --> 00:28:40,586
So the point is, it doesn't make sense, only in disruptive discharges, high frequency, high voltage, good directional systems.
330
00:28:41,180 --> 00:28:43,314
can you notice that?
331
00:28:45,410 --> 00:28:47,543
That kind of gain.
332
00:28:48,400 --> 00:28:51,714
So shorting out coils.
333
00:28:52,220 --> 00:28:54,859
Sometimes things are opposite where you think of.
334
00:28:54,860 --> 00:29:01,279
If you just think in terms of resistance and amperage, you're never going to get anywhere.
335
00:29:01,280 --> 00:29:07,214
You're limited by this little black box that you're stuck and can't see out of, because you need a clear box,
336
00:29:07,215 --> 00:29:17,449
and you need to think about the magnetic component of the electricity or the energy, and it behaves a different way.
337
00:29:17,450 --> 00:29:19,757
It's another part which.
338
00:29:21,240 --> 00:29:25,229
What Don Smith talks about is the energy spin.
339
00:29:25,710 --> 00:29:27,929
This is his own terminology.
340
00:29:27,990 --> 00:29:31,843
And he says it spins this way and produces this.
341
00:29:32,400 --> 00:29:37,800
One aspect of the energy, and it spins the other way and create the other,
342
00:29:37,801 --> 00:29:42,086
and then he brings them back together to have the full power.
343
00:29:42,420 --> 00:29:46,710
So separating these is a learning experience.
344
00:29:48,090 --> 00:29:53,279
The difference between all the different types of energies and processes.
345
00:29:54,990 --> 00:29:59,614
And so this particular system will give you a good idea
346
00:29:59,615 --> 00:30:04,859
of the different types of energies. But I want to recommend to go to the beginning.
347
00:30:04,860 --> 00:30:10,859
Start with, considering everything about Cook's patent (US119825A)
348
00:30:12,330 --> 00:30:15,359
and read his article, which I'll put the link up on my page.
(potentialtec.com)
349
00:30:16,260 --> 00:30:18,779
Also go to Benitez.
350
00:30:20,460 --> 00:30:22,514
And read through these patterns.
351
00:30:23,100 --> 00:30:24,571
Line by line.
352
00:30:25,340 --> 00:30:31,200
I brought up all the major, important points, but get a working feel of it.
353
00:30:31,600 --> 00:30:34,749
Build this, this is the easiest one to build.
354
00:30:34,750 --> 00:30:36,643
It can be done very quickly.
355
00:30:36,910 --> 00:30:44,049
You can make your own induction coil just for the transformer, and an interrupter could use a buzzer.
356
00:30:44,740 --> 00:30:49,239
You know, you could use a bunch of different things to create the oscillation.
357
00:30:50,490 --> 00:30:55,079
You know, we use transformers nowadays and...
358
00:30:57,690 --> 00:31:06,269
To create, but we sometimes... And doing that, have a much greater losses and we don't have.
359
00:31:07,490 --> 00:31:09,829
Always the best.
360
00:31:11,500 --> 00:31:14,029
Way of creating these...
361
00:31:14,030 --> 00:31:17,060
Higher gains.
We all over doing.
362
00:31:17,061 --> 00:31:22,014
so, look at all that stuff I think I've covered everything I want to cover here.
363
00:31:22,390 --> 00:31:25,356
There's so much more I usually take two days to do this,
364
00:31:25,357 --> 00:31:35,729
this presentation, so I can't do everything, but I covered over most of the ground, pretty much.
365
00:31:35,980 --> 00:31:38,469
One thing I could just draw attention to.
366
00:31:38,470 --> 00:31:42,549
I'll put this link up to Tesla coil safety information.
367
00:31:42,550 --> 00:31:47,199
There's 14 sheets of detailed information here.
368
00:31:47,200 --> 00:31:52,929
Some of it is just an outline, though, of very serious dangers of Tesla coils.
369
00:31:52,930 --> 00:32:02,530
And then that would relate to all these types of systems that are higher voltage, higher frequency, higher amperage, systems.
370
00:32:03,710 --> 00:32:07,414
Again, watch out for ozone, don't breathe it in.
371
00:32:07,900 --> 00:32:10,829
many people don't realize.
372
00:32:11,630 --> 00:32:13,814
The danger there.
373
00:32:15,290 --> 00:32:18,714
All sorts of other dangers here, so look at this.
374
00:32:19,740 --> 00:32:21,100
length.
375
00:32:21,210 --> 00:32:22,786
And.
376
00:32:23,286 --> 00:32:25,229
I don't want to hear your wives.
377
00:32:25,230 --> 00:32:35,614
I've had two different wives tell me, about their husbands experimenting and how, things have been,
378
00:32:35,615 --> 00:32:39,386
very bad for them because of the Tesla coil.
379
00:32:40,050 --> 00:32:43,079
Even under 1W of power
380
00:32:45,670 --> 00:32:50,057
Save your your family, save yourself.
381
00:32:52,920 --> 00:32:58,771
Don't hurt yourself, don't expose yourself so you can see again where these were all at.
382
00:32:58,860 --> 00:33:01,499
344, 71.
383
00:33:02,310 --> 00:33:08,357
Start it all up again and keep on going.
384
00:33:10,190 --> 00:33:16,743
Once the capacitor falls, hear the sound it was...
385
00:33:20,370 --> 00:33:25,443
The whole system. Now again,
oh, I gotta bring the camera around.
386
00:33:26,080 --> 00:33:31,914
i'll show this while it's running so that you don't think there's any kind of monkey business.
387
00:33:37,860 --> 00:33:57,059
This is just about to stop recording anyway, so you can see again, the transformer I'm using here, that's the bigger gauge wire on it.
388
00:33:57,060 --> 00:34:01,799
You can consider that the secondary side and...
389
00:34:04,970 --> 00:34:07,329
How I'm just running.
390
00:34:07,720 --> 00:34:11,229
Okay, my camera just did stop so let's go back again.
391
00:34:13,989 --> 00:34:17,229
i just stopped it for one second.
392
00:34:18,310 --> 00:34:20,200
So let's look at the brightness.
393
00:34:20,989 --> 00:34:22,971
Of these lights.
394
00:34:23,290 --> 00:34:25,357
We're not talking about.
395
00:34:27,840 --> 00:34:30,030
A lot of power, but it is excess.
396
00:34:30,031 --> 00:34:37,158
(24.3 - 11.8 = 12.42V @ 50-90mA Depending on the interrupter setting on induction coil for 0.6-1.1W while running the lights at that power and charging batteries)
397
00:34:37,159 --> 00:34:38,420
so there is the oscilloscope.
398
00:34:43,090 --> 00:34:44,090
You can see the.
399
00:34:46,710 --> 00:34:47,710
The visions.
400
00:34:52,449 --> 00:34:55,057
And then let's look at this.
401
00:34:57,650 --> 00:35:01,900
More closely, you can see.
402
00:35:06,100 --> 00:35:08,100
Lets's stop it.
403
00:35:09,290 --> 00:35:15,400
So this is stopped and I have to just kind of bounce it back.
404
00:35:15,730 --> 00:35:20,786
And see this thing goes up and down. That's why it will change.
405
00:35:21,271 --> 00:35:26,050
Different power, you can you can hear that's a little bit higher power level.
406
00:35:29,110 --> 00:35:32,771
And we'll look at the meter more closely here now.
407
00:35:45,850 --> 00:35:51,143
See now it's a little bit higher. So I can adjust this.
408
00:35:55,510 --> 00:35:59,643
see it's 86, i was doing it. it'll drop down.
409
00:36:06,050 --> 00:36:08,071
different power levels.
410
00:36:09,260 --> 00:36:12,029
That's how I change it.
411
00:36:12,870 --> 00:36:14,989
Kind of will settle there.
412
00:36:14,990 --> 00:36:17,586
I had it down about 50.
413
00:36:21,440 --> 00:36:29,179
So again, if I put this in a different spot, oh, what is different?
414
00:36:29,210 --> 00:36:34,900
What is interesting about this is, if I do connect up.
415
00:36:36,470 --> 00:36:38,186
Here.
416
00:36:39,140 --> 00:36:42,257
We could see 60.
417
00:36:42,470 --> 00:36:46,829
But let's go over here between the two negatives.
418
00:36:49,340 --> 00:36:51,414
42.
419
00:36:52,400 --> 00:36:54,657
And let's go over here.
420
00:36:55,640 --> 00:36:57,671
29.
421
00:36:58,110 --> 00:37:02,069
You know, this is the other side of...
422
00:37:02,070 --> 00:37:05,460
So we have different averages.
423
00:37:05,590 --> 00:37:11,519
Now of course this is not your best meter to use, but you can see that in a lot of these systems.
424
00:37:11,520 --> 00:37:21,029
Even in my system where we're running, the motors you can actually place.
425
00:37:22,643 --> 00:37:27,169
You can place the meter here and here.
426
00:37:27,170 --> 00:37:32,371
There's going to be a difference at this wide terminal.
427
00:37:33,410 --> 00:37:37,549
Between what goes into the motor and what goes here.
428
00:37:37,550 --> 00:37:42,459
There's going to be a difference of amperage right there.
429
00:37:42,460 --> 00:37:49,014
And that's kind of splitting the positive as well, when you consider that in a double sense of the term,
430
00:37:49,015 --> 00:37:55,329
because we're splitting the positive between here and there, and we have a floating ground system here.
431
00:37:55,330 --> 00:37:57,929
So yeah, this is the whole thing running.
432
00:37:58,000 --> 00:38:06,614
I'll show you this too because in out maybe you will see this kind of.
433
00:38:07,480 --> 00:38:09,686
Changes when I...
434
00:38:11,100 --> 00:38:13,557
So we'll look at this.
435
00:38:15,450 --> 00:38:17,986
As I push the tube in.
436
00:38:18,690 --> 00:38:20,489
They can get...
437
00:38:27,470 --> 00:38:35,719
So you can see pushing that in and out will change also the voltage charging rate.
438
00:38:35,720 --> 00:38:37,686
So pull it out.
439
00:38:38,720 --> 00:38:40,543
Before.
440
00:38:42,060 --> 00:38:43,986
Yeah, it's just a little bit different.
441
00:38:44,700 --> 00:38:48,840
And then of course, like I said, running this.
442
00:38:50,160 --> 00:38:53,043
Let's look at what we were doing by.
443
00:38:54,360 --> 00:38:59,714
Taking off the the capacitor right here.
444
00:39:03,410 --> 00:39:06,143
Actually, it's going up in this case.
445
00:39:08,370 --> 00:39:10,343
It's changing.
446
00:39:11,740 --> 00:39:14,443
And I put it back on.
447
00:39:18,530 --> 00:39:23,943
So I guess you could see this whole scope going crazy over there with spikes.
448
00:39:26,910 --> 00:39:28,986
So there's a on...
449
00:39:31,050 --> 00:39:40,409
They're off, see the point it goes down .1
So there it's still off, and now it's on.
450
00:39:40,410 --> 00:39:44,657
so you can see a gain sometimes.
451
00:39:48,290 --> 00:39:52,059
It's definitely not as good to leave it off.
452
00:39:52,060 --> 00:39:57,343
Now you can run this, like I said, across.
453
00:39:59,980 --> 00:40:03,429
So you know, it's already stop.
454
00:40:05,440 --> 00:40:11,700
So you can ride across here like normal.
455
00:40:16,250 --> 00:40:18,700
So you can hear the difference.
456
00:40:19,620 --> 00:40:22,686
See this is still registering.
457
00:40:24,671 --> 00:40:28,114
This eventually will ruin these meters.
458
00:40:28,890 --> 00:40:35,229
He's digital meters get ruined with this high voltage, high pulsing.
459
00:40:35,420 --> 00:40:37,919
And so let's look at this and then it's here.
460
00:40:37,920 --> 00:40:40,457
So you get a close up view.
461
00:40:40,840 --> 00:40:43,329
What I'm talking about.
462
00:40:45,410 --> 00:40:52,643
So I had disconnected that it had been originally connected through right here.
463
00:40:54,050 --> 00:40:59,486
This wire is broken so you can see the kind of rust on that.
464
00:41:00,550 --> 00:41:03,014
The wiring and and...
465
00:41:03,040 --> 00:41:06,399
So I just connected up to those two wires coming out of.
466
00:41:06,400 --> 00:41:10,614
You could see they come out from where the coil goes in.
467
00:41:11,690 --> 00:41:16,457
Nothing special there, but you got to kind of map all this all out.
468
00:41:17,030 --> 00:41:21,200
To figure it out.
Well, now wants to start up again.
469
00:41:21,870 --> 00:41:25,189
now, the thing about it is, you got to be careful.
470
00:41:25,190 --> 00:41:30,400
If it does, put a dead short across it that you...
471
00:41:31,040 --> 00:41:32,871
Recognize that?
472
00:41:33,670 --> 00:41:35,771
So that you don't just run.
473
00:41:36,140 --> 00:41:38,014
Directly through.
474
00:41:38,550 --> 00:41:42,286
Both primaries here.
475
00:41:42,686 --> 00:41:45,770
And not create the pulsing.
476
00:41:46,990 --> 00:41:49,757
So there you go, at rest again.
477
00:41:50,020 --> 00:41:55,086
And so yeah, there is it maintains the batteries while it's...
478
00:41:55,720 --> 00:41:57,314
Gives you a load.
479
00:41:57,520 --> 00:42:02,414
Now is running bigger loads on this too.
With these.
480
00:42:03,260 --> 00:42:05,386
100 watt modules.
481
00:42:05,690 --> 00:42:13,271
Here I put a bridge rectifier across these because I don't want them to get damaged, so we can run this.
482
00:42:18,700 --> 00:42:22,486
So that creates the light that I need.
483
00:42:25,910 --> 00:42:31,357
Good charging. So there is a sweet spot.
484
00:42:41,157 --> 00:42:44,829
there is a sweet spot on this.
485
00:42:47,650 --> 00:42:54,999
now I'm using the secondary winding on there.
I can also close the switch and run that...
486
00:42:58,440 --> 00:43:02,343
from the primary winding here.
487
00:43:03,330 --> 00:43:05,699
But that's another whole story, anyway...
488
00:43:05,700 --> 00:43:13,779
You can play around with this a lot and, do some fun things, and we'll just show you again what we're doing in our motors.
489
00:43:13,780 --> 00:43:17,343
Except you don't get any free mechanical power out of this.
490
00:43:17,430 --> 00:43:22,469
As you do the motors, so that's why I generally don't go this route.
491
00:43:22,470 --> 00:43:28,771
because I like to get, you know, an additional source of energy through the batteries.
492
00:43:30,740 --> 00:43:33,109
Welcome to the Renaissance Charge videos.
493
00:43:33,110 --> 00:43:35,914
This is video number 4, I believe (It's 5).
494
00:43:36,110 --> 00:43:39,159
And this is done after the other.
495
00:43:39,160 --> 00:43:46,557
The next part of this video but, I decided to, show a bit more here in the meantime.
496
00:43:46,680 --> 00:43:50,314
Still working on editing the last part of the video.
497
00:43:50,510 --> 00:43:55,857
And there may be a fifth video as well. Actually, maybe a lot more.
498
00:43:56,390 --> 00:44:01,900
so what we have here again is going back to the, one.
499
00:44:02,860 --> 00:44:11,471
The lead is set up, in which... The first patent... I think the third section.
500
00:44:12,500 --> 00:44:17,529
and so we're running 24V in 12V here.
501
00:44:18,070 --> 00:44:30,414
And we have the induction coil here with its upward secondary winding. Now, there's two Windings of...
502
00:44:31,390 --> 00:44:34,814
Wiring inside this particular coil here.
503
00:44:35,020 --> 00:44:43,179
This one right here is an example of an AC one that is, a mobile radio device only has one winding.
504
00:44:43,180 --> 00:44:45,570
It's not what I really want in these experiments.
505
00:44:45,580 --> 00:44:49,959
I'd like to have the secondary windings completely isolated.
506
00:44:49,960 --> 00:44:55,500
So in this case, I'm actually, running off the opposite.
507
00:44:55,960 --> 00:44:59,457
We had normally, would think about running it.
508
00:44:59,890 --> 00:45:06,529
First of all, I'd rather have my secondary wiring completely isolated from the primary winding.
509
00:45:06,530 --> 00:45:08,859
And, it's not that way.
510
00:45:08,860 --> 00:45:11,949
It is connected to this one wire, as I showed earlier video.
511
00:45:15,790 --> 00:45:22,889
It's so wrapped around itself, I'm not going to try and separate them and ruin this coil.
512
00:45:22,900 --> 00:45:26,486
So I'm leaving it for now connected.
513
00:45:30,130 --> 00:45:33,699
It is, set up this way, anyway, in one pattern.
514
00:45:37,330 --> 00:45:40,486
That I have shown the diagram before.
515
00:45:44,940 --> 00:45:47,814
Try not to say them too much this time.
516
00:45:48,720 --> 00:45:52,229
Well, so I say well or so.
517
00:45:52,230 --> 00:45:54,400
Something else like that.
518
00:45:55,460 --> 00:45:56,829
The.
519
00:45:57,620 --> 00:46:00,914
So we're running off of the secondary.
520
00:46:02,090 --> 00:46:08,586
So the secondary is actually creating the, influence of the primary.
521
00:46:09,050 --> 00:46:11,929
Just doing that to bring down the apps.
522
00:46:12,330 --> 00:46:17,369
And run it actually backwards, not that I should be doing that, but it still works.
523
00:46:17,370 --> 00:46:19,971
so that's the way I have it set up here.
524
00:46:20,130 --> 00:46:27,800
This little red wire here is, the smaller gauge wire, the secondary wire and...
525
00:46:29,820 --> 00:46:33,300
The primary is usually...
526
00:46:33,560 --> 00:46:38,043
Run that way with the switch closing.
527
00:46:40,520 --> 00:46:42,757
What I have here.
528
00:46:43,760 --> 00:46:47,114
What's very odd, what just happened there.
529
00:46:47,690 --> 00:46:51,271
It must have been because the capacitor.
530
00:46:51,950 --> 00:46:55,171
It crossed us that it just made the...
531
00:46:59,040 --> 00:47:03,829
So I have two oscilloscopes across either points.
532
00:47:05,100 --> 00:47:10,650
Two probes of the oscilloscope across either side of the induction coil.
533
00:47:10,650 --> 00:47:16,530
So you can see, the difference in the waveform and...
534
00:47:17,550 --> 00:47:22,769
What we want to look at is the relationship of this capacitor.
535
00:47:24,070 --> 00:47:29,486
I want to talk about two different things here in this video.
One is this set up the way we have it here.
536
00:47:37,290 --> 00:47:43,414
and then maybe I'll go into the final pattern that we've talked about, at the last video.
537
00:47:46,670 --> 00:47:51,243
or actually we're going to get into this the later part of this video.
538
00:47:52,720 --> 00:47:58,760
So I may include that section after the video that I've already done.
539
00:47:58,810 --> 00:48:02,269
I'm not sure yet, I'll edit it.
(I decided to put this section of the video at he end rather than before)
540
00:48:02,270 --> 00:48:06,371
I want to talk about here the difference between.
541
00:48:06,710 --> 00:48:09,843
The capacitor across the contacts.
542
00:48:10,140 --> 00:48:13,157
The points of condenser in your old...
543
00:48:13,870 --> 00:48:16,343
Gasoline automobile.
544
00:48:16,420 --> 00:48:18,729
When you had points and condensers.
545
00:48:19,090 --> 00:48:20,814
When I was a kid.
546
00:48:23,770 --> 00:48:25,630
Normally that's across context.
547
00:48:29,329 --> 00:48:38,714
But in the beginning patents I showed how we put across... Because we're running something unique here 24V, 12V, 24V, 12V.
548
00:48:38,720 --> 00:48:44,057
I put it across the negative according to the enhancement, of the pattern.
549
00:48:46,640 --> 00:48:50,359
So you'll be able to see the different waveform here, we do that.
550
00:48:50,360 --> 00:48:54,309
and what's interesting is you'll see how the...
551
00:48:58,460 --> 00:49:02,157
The voltages change and they kind of...
552
00:49:03,680 --> 00:49:06,471
Take a second to adjust.
553
00:49:06,930 --> 00:49:10,643
And, they go up and then they come back down.
554
00:49:11,280 --> 00:49:16,439
So that's interesting how it's, regulated to the load.
555
00:49:16,440 --> 00:49:19,057
So what we're doing here with this?
556
00:49:19,820 --> 00:49:22,550
Going across, not the terminals.
557
00:49:22,550 --> 00:49:30,679
Remember we said, Benitez said, you don't have to go across the contacts to, use the secondary application of this capacitor
558
00:49:30,680 --> 00:49:32,659
no, this is a really big capacitor.
559
00:49:32,660 --> 00:49:37,699
So 2000 volt, 1000 microfarad capacitor.
560
00:49:38,510 --> 00:49:42,409
And, it is actually polarized, apparently.
561
00:49:42,410 --> 00:49:44,329
I didn't realize that, but.
562
00:49:44,710 --> 00:49:46,557
I'm still going to use it.
563
00:49:46,990 --> 00:49:54,519
I've used other capacitors and in this particular case it seems the bigger capacitor works better.
564
00:49:54,520 --> 00:50:02,080
Not much difference than was 10 microfarad, but it seems to make difference between the .0
(That is the first patent's last circuir, whereas the last patent circuit's capacitor after the spark gap should be a low, like 0.2uF High Voltage Capacitor)
565
00:50:02,081 --> 00:50:03,809
(That is the first patent's last circuir, whereas the last patent circuit's capacitor after the spark gap should be a low, like 0.2uF High Voltage Capacitor)
566
00:50:03,810 --> 00:50:10,200
15 microfarad or I've got a couple of these, high voltage small...
(That is the first patent's last circuir, whereas the last patent circuit's capacitor after the spark gap should be a low, like 0.2uF High Voltage Capacitor)
567
00:50:11,060 --> 00:50:12,571
capacitor there.
568
00:50:14,086 --> 00:50:22,200
On his particular plates, I don't want to people get confused. I'm going to run the capacitor.
569
00:50:22,720 --> 00:50:27,114
in this place in which Benitez patent makes a big deal about.
570
00:50:27,610 --> 00:50:34,614
He says as many times as you can, charge discharge this capacitor, you will...
571
00:50:35,730 --> 00:50:37,300
Increase.
572
00:50:37,540 --> 00:50:49,243
The, voltage power of this particular input battery and, therefore charge up these batteries more readily.
573
00:50:49,720 --> 00:50:57,880
Now, the other thing is, I do have another capacitor here that I will put across the points and...
574
00:50:59,390 --> 00:51:02,514
You'll see the waveform differently there.
575
00:51:02,750 --> 00:51:05,671
Now, in that particular case.
576
00:51:07,714 --> 00:51:11,100
That is a different thing than the final patent.
577
00:51:11,960 --> 00:51:17,029
Which we'll talk about at the second part of this video.
578
00:51:19,120 --> 00:51:20,957
what we want to do is...
579
00:51:22,210 --> 00:51:24,729
Essentially they do the same kind of thing here,
580
00:51:24,730 --> 00:51:29,229
but reducing the batteries go to 2, 12 volt batteries.
581
00:51:30,010 --> 00:51:33,014
The negatives are still connected together.
582
00:51:36,040 --> 00:51:40,543
What we're doing is one battery is powering.
583
00:51:41,000 --> 00:51:45,170
Either an inverter, with a variac or...
584
00:51:45,950 --> 00:51:48,314
Actually an inverter.
585
00:51:49,400 --> 00:51:53,571
going into, a transformer.
586
00:51:54,740 --> 00:51:56,686
Stepping up the voltage.
587
00:51:56,900 --> 00:52:01,219
Not too high, but you can go really as high as you want to.
588
00:52:01,220 --> 00:52:10,171
But in his patent, he wasn't going to high because of the limits of the diodes that he was using, or 600V or something like that.
589
00:52:10,810 --> 00:52:16,479
So I think the higher voltage is more biologically dangerous too...
590
00:52:16,480 --> 00:52:19,443
And I do have a solution to that.
591
00:52:19,620 --> 00:52:24,957
I will be bringing up the near future and working on that day and night.
592
00:52:25,580 --> 00:52:31,071
Well, in this particular last patent where we have the two batteries
593
00:52:31,072 --> 00:52:39,614
and what we're doing is we're running the... either we can run a DC motor that ran an alternator as it says on the patent,
594
00:52:39,615 --> 00:52:44,871
or we can run directly into induction coil, or nowadays we can run,
595
00:52:44,872 --> 00:52:54,256
like the Don Smith system, the inverter with the variac, we can control, one voltage V1,
596
00:52:54,257 --> 00:52:58,669
add capacitors in the spark gap.
597
00:52:58,670 --> 00:53:09,743
The number of spark gaps here somewhere... in the violet ray device is big spark gap here.
598
00:53:16,310 --> 00:53:18,900
So you run that.
599
00:53:20,150 --> 00:53:24,229
This is where Don Smith did a great system, in all these are the same
600
00:53:24,230 --> 00:53:29,269
where we're creating off of a 12 volt or whatever voltage battery.
601
00:53:29,270 --> 00:53:39,914
Relatively small, relatively, little voltage DC source, which then can be, recharged.
602
00:53:40,490 --> 00:53:50,000
In this case, we don't want to run the recharging at the same time is the input, but this is not really good for a battery to do.
603
00:53:50,420 --> 00:53:55,329
So interestingly, Benitez never did that and (Edwin) Gray ever did that.
604
00:53:55,610 --> 00:54:04,800
So what he did then was went from the 12V in my...
605
00:54:06,530 --> 00:54:10,610
My diagram, which I put on the front of the last video.
606
00:54:14,830 --> 00:54:16,586
You have...
607
00:54:18,490 --> 00:54:28,357
12V going into the induction coil as a replacement to the alternator.
608
00:54:29,170 --> 00:54:32,859
Which that's the the first way he ran it.
609
00:54:32,860 --> 00:54:37,429
And it seemed to maybe be a better advantage.
610
00:54:37,630 --> 00:54:41,019
Maybe not because you have your losses in there.
611
00:54:41,020 --> 00:54:48,600
But you can tune it to go on to resonance, which then could probably add to the whole process, you know...
612
00:54:48,640 --> 00:55:02,229
But I am the type of person that I'm trying to get away from, making things too difficult or, having things fall in and out of sweet spots and all that.
613
00:55:02,230 --> 00:55:05,957
I'd like to keep it fairly simple for everybody to do.
614
00:55:06,340 --> 00:55:09,939
So going into an induction coil is great.
615
00:55:09,940 --> 00:55:13,809
We have this spark gap in that as he talked about.
616
00:55:13,810 --> 00:55:19,179
But we also want to go directly then into an actual spark gap.
617
00:55:19,180 --> 00:55:25,771
And this is where if you have just a strained transformer you're going to need that.
618
00:55:26,380 --> 00:55:36,300
If you have a battery going into an inverter into like a Neon Sign Transformer.
619
00:55:36,900 --> 00:55:38,671
Shall show soon.
620
00:55:39,000 --> 00:55:45,100
And then you've got from there going into the spark gap.
621
00:55:46,620 --> 00:55:50,843
If you're paying attention to.
622
00:55:52,170 --> 00:56:06,989
Benitez system, like I'm showing the next part of this video, you'll see how it goes into, after the spark goes into a coil or, sorry, a, capacitor condenser time.
623
00:56:06,990 --> 00:56:11,909
And then it goes into a bridge rectifier and then back.
624
00:56:11,910 --> 00:56:14,186
By actually, there is a rheostat.
625
00:56:18,280 --> 00:56:23,679
And it's probably not just your regular rheostat like this.
626
00:56:24,140 --> 00:56:35,020
This is probably more of... A real doctor, type of... like that cage coil...
627
00:56:35,410 --> 00:56:39,039
They call it... The name escapes me right now
628
00:56:39,040 --> 00:56:46,400
But anyway, in which there is some inductance involved because he makes reference to that in the pattern.
629
00:56:46,401 --> 00:57:02,999
Most important quote in the patent showing how the gain takes places and is a major secret to unlimited power. This is all that is really important to understand.
Extending into the arc chamber are the poles of a strong electromagnet, the coils of which are in series with the arc, so that their exciting current is the arc current.
In this manner, the strong magnetic field which exists between the poles of the magnets acts on the arc, and owing to such action combined with the influence of the voltage developed by the secondary 46--47 of the transformer, it happens that said action and influence being about equal in value, are each of the alternatively greater than the other, so that the voltage across the arc automatically rises and falls.
630
00:57:03,000 --> 00:57:17,329
Therefore, when the action of the magnetic field is greater than the voltage produced by the secondary of the transformer, the current produced by said secondary has not enough pressure to pass across the arc and the condenser is charged, by an instand afterwards said action decreases in value, and the condenser discharges across same said arc. On the other hand owing to the oscillatory nature of the circuit, which is arranged with proper values of capacity, inductance, and resistance, said charges and discharges of the condenser can be obtained several millions of times per second if desired, and in this manner current of a great number of amperes can be secured through the oscillating circuit, even with a small amount of electricity stored by said condenser. (page 2 lines 49-57, page 3 lines 1-10)
631
00:57:17,330 --> 00:57:25,900
That you've got to really pay attention to the inductance, the capacitance and the...
632
00:57:28,000 --> 00:57:33,043
Voltage, of course but there was one other factor is, you know...
633
00:57:33,044 --> 00:57:53,029
voltage can be varied in very wide limits, and therefore it is always possible to attain the required conditions in each case, in order to produce a given number of oscillations per second: The capacity of the condenser can be adjusted to a certain value by increasing or diminishing the surface of the coatings. The resistance of the circuit can be adjusted to the required value by varying the length of the arc in the Poulsen lamp (or spark gap) or varying the number of lamps connected in series or parallel in the circuit. The inductance of said circuit can be varied by winding part of the same circuit on an insulating frame, in such a manner as to obtain the number of turns required to produce the desired inductaonce; and finally, the charging voltage can be regulated by increasing or diminishing the number of turns in the secondary of the transformer, or by varying the diameter of the wire employed in such coil.
634
00:57:53,860 --> 00:57:56,409
Just in periods and things. So forth.
635
00:57:56,410 --> 00:58:08,050
What we want to look at or we have to consider in, for example, Don Smith system where he has...
636
00:58:10,210 --> 00:58:11,786
The...
637
00:58:12,880 --> 00:58:14,557
After he's got the...
638
00:58:15,143 --> 00:58:20,319
He goes from battery to inverter to the Neon Sign Transformers whic is big,
639
00:58:20,320 --> 00:58:25,750
you know, it's a small transformer that boosted up to maybe 2Kv or 3Kv.
640
00:58:26,440 --> 00:58:31,209
And then from there it goes to the spark gap and then a coil...
641
00:58:31,210 --> 00:58:34,539
...This is coil arrangement.
642
00:58:34,540 --> 00:58:38,859
And a lot of people are kind of stopped at that point, they don't really care to get into resonance.
643
00:58:38,860 --> 00:58:44,619
and and they really fail to see what the need is for showing.
644
00:58:44,620 --> 00:58:55,457
And actually if you look at Don Smith's system, you'll see another example where he runs a Neon... Or actually the inverter...
645
00:58:57,870 --> 00:59:05,639
I guess internally, Neon Sign Transformer or actually directly into a high voltage transformer.
646
00:59:05,640 --> 00:59:12,157
From there, he just goes through some diodes directly to the.
647
00:59:13,530 --> 00:59:15,630
To a big capacitor bank
648
00:59:17,040 --> 00:59:20,614
There is two wires on one board the...
649
00:59:20,900 --> 00:59:28,757
That seemed to be, beside each other so I'm assuming there would be a spark gap in between that.
650
00:59:29,040 --> 00:59:39,529
at that point, or some other factors, but there's no coil needed, If you listen to this video where he's in his office.
651
00:59:40,170 --> 00:59:43,139
oh, 20 years ago, I think it was.
652
00:59:43,140 --> 00:59:46,470
And he's interviewed for about 45 minutes or so.
653
00:59:46,471 --> 00:59:54,229
And in there he says, all these things are not necessary. (Video 4) In other words, the the coils and...
654
00:59:55,230 --> 00:59:58,479
and, various...
655
00:59:58,480 --> 01:00:04,400
So people were looking for that, put it in there that's what they're expecting or something along those lines.
656
01:00:04,560 --> 01:00:08,829
So there's various ways to do this and Benitez system is a simple way.
657
01:00:09,210 --> 01:00:12,839
now where Benitez system focus is in.
658
01:00:12,840 --> 01:00:15,871
and I'll get that next part of the video.
659
01:00:16,150 --> 01:00:18,971
is the spark gap...
660
01:00:19,820 --> 01:00:23,329
The way the spark gap is named directly quenched.
661
01:00:23,330 --> 01:00:28,429
And, I think there is a big part of it where you're picking up.
662
01:00:32,570 --> 01:00:38,869
The output from the spark at this angle of here, which is where, the magnetic....
663
01:00:46,030 --> 01:00:51,249
Magnetic fields are produced I think they're picking up they're also collectors in the system.
664
01:00:51,250 --> 01:00:57,657
Just like a (Edwin) Gray's tube. It's [collected] at right angles, the spark.
665
01:01:00,640 --> 01:01:07,971
And we'll get into that later on, I'll do some demonstrations of that there's a couple of them on the internet, some really old, old videos
666
01:01:07,972 --> 01:01:15,819
to look at, and it doesn't seem to be much activity the last couple of years, being posted.
667
01:01:15,820 --> 01:01:20,169
So it's surprising to me that somebody hasn't run with this.
668
01:01:20,170 --> 01:01:24,760
so many years since it's been known, or at least publicly run with it.
669
01:01:25,729 --> 01:01:26,249
(There are many private systems like this all over the world but not sold to the general public)
670
01:01:26,250 --> 01:01:27,969
So yeah, let's go back to this.
(There are many private systems like this all over the world but not sold to the general public)
671
01:01:27,990 --> 01:01:30,839
Let's look at the capacitor values now.
(There are many private systems like this all over the world but not sold to the general public)
672
01:01:30,840 --> 01:01:38,610
With that one capacitor in the last, model I was talking about with the two batteries.
673
01:01:39,660 --> 01:01:43,457
The last Benitez patent. So two batteries.
674
01:01:43,680 --> 01:01:49,414
one battery powering the induction coil pointing to the spark gap.
675
01:01:50,130 --> 01:01:51,629
Then.
676
01:01:52,020 --> 01:01:55,186
Going to a capacitor.
677
01:01:55,750 --> 01:02:03,319
And then to the bridge rectifier, then to the charging battery, and you run your loads of the input battery actually according to that.
678
01:02:03,320 --> 01:02:09,329
And so in that case we want actually a small capacitor.
679
01:02:09,790 --> 01:02:15,085
And of course, related to the voltage, usually double the voltage that you're operating under.
680
01:02:15,086 --> 01:02:25,699
Another very important point from the patent showing that a 0.2 uf capacitor could never charge a battery if merely filled and dumped one time, but if the induction coil along with the oscillatory multiplication of the spark gap gives us hundreds, thousands or millions of pulses per second then we can actually charge up such batteries and produce a lot more power. This shows that we are not seeking to push current through the entire system as then you would just have your losses."Obviously, if such electric power instead of being stored by said condenser had been simply rectified, and directly applied to the charge of one of the above mentioned batteries, such power would only produce a very small effect on these accumulators, and the whole discharge of the other battery would never cause the complete charge of the second group.
681
01:02:25,700 --> 01:02:34,857
On the contrary, if same said power is stored by said condenser 48, and this condenser is properly connected to an oscillatory circuit in which one of said batteries can be joined, and furthermore if by means of a rectifier the high frequency currents produced in such oscillatory circuit are forced to pass from the positive to the negative pole through said battery of acuumulators, it is obvious to state that it is always possible to secure by these means, the number of amperes required by said accumulators in order to get them charged in a given time."
682
01:02:36,250 --> 01:02:40,143
But he talks about a .2 microfarads.
683
01:02:40,570 --> 01:02:48,043
So we don't want a big capacitor there, because what we want is.
684
01:02:48,044 --> 01:02:52,679
the fast charging of that capacitor as possible.
685
01:02:52,680 --> 01:02:56,309
and the thing is about that is... Well...
686
01:02:56,310 --> 01:03:02,214
You want a little bit of airflow to blow out the spark gap.
687
01:03:02,710 --> 01:03:11,100
And that cuts it off more rapidly so that there's more rapid frequency.
688
01:03:12,000 --> 01:03:15,114
So then what happens is...
689
01:03:15,710 --> 01:03:21,709
We also have make the quenching It's also shortened, I guess much greater efficiency.
690
01:03:21,710 --> 01:03:27,100
and you're not wasting so much energy in creating a spark, actually, we're suppressing the spark.
691
01:03:27,486 --> 01:03:36,749
So what Benitez talks about the capacitor is that we wanted as fast as many as high of a frequency we can get there.
692
01:03:36,750 --> 01:03:43,400
Therefore, we're charging up and discharging that capacitor.
693
01:03:43,620 --> 01:03:50,000
This is much possible and rather than pushing current.
694
01:03:50,510 --> 01:04:01,039
Pushing fardas, microfarads into the battery were we're hitting that battery with very small pulses.
695
01:04:01,040 --> 01:04:06,286
Up to, you know, a million times a second, which is extremely fast.
696
01:04:06,510 --> 01:04:11,699
And you can only get that kind of speed with the right kind of system?
697
01:04:14,100 --> 01:04:19,800
Like this is very limited here with this hammer, based upon the...
698
01:04:21,560 --> 01:04:24,314
Flexibility of the...
699
01:04:26,000 --> 01:04:28,820
The malleable aluminum there.
700
01:04:29,510 --> 01:04:34,571
So if we get into other electrolytic type of...
701
01:04:35,540 --> 01:04:43,886
Interrupters we talked about, then we can go faster, he says.
Right here, I'm just showing the bare bones basic.
702
01:04:44,380 --> 01:04:50,079
And I'll do a demonstration of that, a little bit later on of that particular system.
703
01:04:50,800 --> 01:04:55,480
But I want to make mention the difference between this particular.
704
01:04:56,450 --> 01:05:02,129
Well, this end of the circuit with its capacitor would be different than.
705
01:05:03,030 --> 01:05:09,350
On the second system where we have.The spark in and that particular system.
706
01:05:09,360 --> 01:05:13,100
What else I want to say?
707
01:05:13,680 --> 01:05:16,860
Let me try to convey the idea of...
708
01:05:18,840 --> 01:05:24,843
Where the energy takes place, where the increase takes place, and.
709
01:05:25,340 --> 01:05:27,657
There's a lot of talk about.
710
01:05:28,060 --> 01:05:32,529
It's in the special caduceus type coil.
711
01:05:32,860 --> 01:05:37,157
It's in this place or that place.
712
01:05:38,040 --> 01:05:42,771
But I think it's in several different things that we're doing here.
713
01:05:43,230 --> 01:05:44,230
And.
714
01:05:44,730 --> 01:05:48,243
In the first case, we have an induction coil.
715
01:05:48,960 --> 01:05:50,914
We have.
716
01:05:51,720 --> 01:05:53,757
A making break.
717
01:05:54,190 --> 01:05:56,771
So as soon as you... When you make...
718
01:05:57,320 --> 01:06:04,559
When you make the contact you obviously have a closing of the loop through the primary in which...
719
01:06:05,860 --> 01:06:07,700
it draws energy.
720
01:06:08,110 --> 01:06:09,971
And that's a closed loop.
721
01:06:10,380 --> 01:06:15,900
And at that point it obviously energizes the...
722
01:06:17,690 --> 01:06:21,814
The soft iron and it opens up the circuit.
723
01:06:23,100 --> 01:06:26,890
At that point we'll see the...
724
01:06:29,600 --> 01:06:31,214
it turns off.
725
01:06:32,130 --> 01:06:37,060
Right obviously it's open there's no current flowing through the...
726
01:06:38,880 --> 01:06:40,871
From the input.
727
01:06:41,760 --> 01:06:45,530
And then, of course, if we run the capacitor.
728
01:06:47,360 --> 01:06:50,171
On this side of the circuit.
729
01:06:50,390 --> 01:06:52,457
So I have it here.
730
01:06:53,480 --> 01:06:56,200
After the circuit.
731
01:06:58,190 --> 01:07:00,043
Then.
732
01:07:02,500 --> 01:07:09,379
What we have here is a real open loop and we're not across the context.
733
01:07:09,380 --> 01:07:12,619
And I mean, it is an open loop anyway with the capacitor.
734
01:07:12,620 --> 01:07:17,589
But, not even with the capacitor there, you have a real open loop.
735
01:07:17,590 --> 01:07:26,700
At that point we go into, an oscillation which we can see on both coils here.
736
01:07:27,240 --> 01:07:29,414
On the oscilloscope.
737
01:07:29,900 --> 01:07:34,729
So that would be, I'll gonna show that while we're talking again.
738
01:07:37,730 --> 01:07:46,571
Now you saw, how when I first picked this up, there was a dead short, right?
739
01:07:46,790 --> 01:07:51,829
Because I had to kind of kick start it, to get vibrating in that way.
740
01:07:52,550 --> 01:07:56,743
This is an old model is not working very well.
741
01:07:58,190 --> 01:08:01,800
So now all you can see is.
742
01:08:07,680 --> 01:08:12,686
The waveform while we connect.
743
01:08:14,040 --> 01:08:17,457
Here is disconnected the capacitor
744
01:08:19,069 --> 01:08:21,986
so if we connect it again across.
745
01:08:24,500 --> 01:08:27,857
Where it's usually connected which you do right here.
746
01:08:28,819 --> 01:08:34,171
Of course, this is a really big capacitor so you don't really want to do that.
747
01:08:35,120 --> 01:08:38,810
Lets see now we can go.
748
01:08:41,649 --> 01:08:46,500
Unfortunately this kind of... Is really sensitive so...
749
01:08:50,080 --> 01:08:52,443
So this would be across.
750
01:08:54,870 --> 01:08:56,857
Across the terminals.
751
01:08:59,229 --> 01:09:03,471
Now I just saw it a kind of like like more.
752
01:09:06,050 --> 01:09:10,159
But she was drawing more power when we did that.
753
01:09:10,160 --> 01:09:17,657
So called, because actually you've got the capacitor right here.
754
01:09:18,529 --> 01:09:22,971
Anyway, I'm going to show the difference that's across.
755
01:09:24,229 --> 01:09:29,929
That is across the coil, see the waveform change there and then damped it all out.
756
01:09:29,930 --> 01:09:32,571
There's open again.
757
01:09:34,130 --> 01:09:42,680
So you can see the lights too as the... Well not too much energy.
We need look at the voltages.
758
01:09:45,950 --> 01:09:53,239
Change under the various... Wave now.
What we can do is connect it in several places.
759
01:09:57,540 --> 01:09:59,914
So we can disconnect this.
760
01:10:09,810 --> 01:10:14,214
Can't let that go for too long in multiple changes.
761
01:10:14,820 --> 01:10:17,789
So 12 flat voltage come now... It's just crashed.
762
01:10:18,180 --> 01:10:21,386
So now if we connect up again.
763
01:10:29,700 --> 01:10:32,343
Let me turn it on this
764
01:10:41,080 --> 01:10:45,057
At this position I am here will change everything somewhat.
765
01:10:45,340 --> 01:10:50,957
So let's connect this across...
766
01:10:59,500 --> 01:11:02,671
So now we have it directly...
767
01:11:06,700 --> 01:11:09,071
That's interesting.
768
01:11:16,890 --> 01:11:19,029
So you can see there.
769
01:11:20,160 --> 01:11:26,249
That's right across the one set.
The primary coil actually.
770
01:11:28,740 --> 01:11:34,357
See on, the busted wave out there across
what we are draining or...
771
01:11:45,550 --> 01:11:49,857
So there's a number of places where we can see enhancements.
772
01:11:51,860 --> 01:11:54,814
Now we're at...
773
01:11:57,950 --> 01:12:01,140
100V were...
774
01:12:04,500 --> 01:12:07,957
On the input side.
775
01:12:09,030 --> 01:12:18,569
Well, I guess we got out of sight on the on the, stunt side, and only actually.
776
01:12:18,570 --> 01:12:21,630
Sorry, that's the other way around.
777
01:12:25,560 --> 01:12:30,420
We're only at five volt intervals on the one on this.
778
01:12:32,940 --> 01:12:40,570
Number one channel to the yellow channel and the blue is across.
779
01:12:42,780 --> 01:12:45,020
So we I guess you can call that the output.
780
01:12:45,780 --> 01:12:47,729
And those are 100 volt positions there.
781
01:12:48,780 --> 01:12:53,729
So we've got one, two, three, 350 or so.
782
01:12:57,560 --> 01:12:58,560
Well.
783
01:13:00,000 --> 01:13:04,819
Differences there or, spike up and down.
784
01:13:06,530 --> 01:13:09,290
So you can see that and look at.
785
01:13:11,720 --> 01:13:12,720
That's across the.
786
01:13:31,500 --> 01:13:32,500
And then.
787
01:13:35,610 --> 01:13:37,379
And so we could run both of these.
788
01:13:49,560 --> 01:13:50,560
Oops.
789
01:13:58,090 --> 01:14:01,550
This is not meant to give you that much precision.
790
01:14:01,550 --> 01:14:03,279
It's to go over the whole thing.
791
01:14:05,020 --> 01:14:12,939
So now if I put this capacitor on and the difference there, you have this one connection.
792
01:14:14,890 --> 01:14:21,910
So there's a lot of different relationships here, with what we could do.
793
01:14:22,780 --> 01:14:30,579
I also have this slider, that isolates the I think it's just the core.
794
01:14:31,690 --> 01:14:31,970
Yeah.
795
01:14:31,970 --> 01:14:38,050
Just isolating the core material from the, the windings.
796
01:14:40,060 --> 01:14:41,800
So that will change the relationship.
797
01:14:45,130 --> 01:14:48,399
So we that, you know, I changed everything.
798
01:14:56,750 --> 01:15:02,779
So we're talking about running some different loads here because we're talking about milliamps here.
799
01:15:07,100 --> 01:15:08,180
50 milliamps.
800
01:15:09,080 --> 01:15:09,950
12V.
801
01:15:09,950 --> 01:15:11,240
Difference in differential.
802
01:15:13,940 --> 01:15:15,079
Pretty much exactly.
803
01:15:16,010 --> 01:15:17,010
And.
804
01:15:18,410 --> 01:15:24,920
So the battery charging up at the rate this one is charging for batteries altogether swapping around.
805
01:15:25,520 --> 01:15:31,760
So this is like my motor situation, except you don't have the support we have.
806
01:15:32,840 --> 01:15:34,549
Running of the speaker mode.
807
01:15:35,420 --> 01:15:42,199
And which is analogous to a so this could be any that you size.
808
01:15:42,860 --> 01:15:49,310
So I think really we can avoid the for battery draining system like this.
809
01:15:49,820 --> 01:15:51,290
This is a simple way of doing it.
810
01:15:53,120 --> 01:16:09,409
It's a lot easier this way, but I think we can reduce the number of batteries to go with the final, pattern in which we're running, two batteries doing the same sort of thing.
811
01:16:11,690 --> 01:16:13,200
But now we're using a spark.
812
01:16:13,220 --> 01:16:13,880
Yeah.
813
01:16:13,880 --> 01:16:15,709
And of course, this particular system, too.
814
01:16:16,250 --> 01:16:18,800
We can't run across here.
815
01:16:22,400 --> 01:16:23,930
We can run the.
816
01:16:26,870 --> 01:16:28,189
The extra transformer.
817
01:16:30,020 --> 01:16:31,289
You know these things.
818
01:16:33,670 --> 01:16:35,410
That almost nine.
819
01:16:35,410 --> 01:16:38,949
You know, I have to share that change a little bit.
820
01:16:40,720 --> 01:16:46,209
Anyway, what I'm saying is, so we can actually open this up a little bit more.
821
01:16:53,220 --> 01:16:55,170
You can look at the way for you.
822
01:17:23,610 --> 01:17:24,610
So again, it's.
823
01:17:28,450 --> 01:17:29,450
So the difference.
824
01:17:32,470 --> 01:17:33,470
That's disconnected.
825
01:17:35,180 --> 01:17:35,670
Connected.
826
01:17:35,670 --> 01:17:40,500
We got certainly a lot more power when we add this capacitor in there.
827
01:17:41,070 --> 01:17:42,090
Just like you said.
828
01:17:43,300 --> 01:17:45,760
There's a significant increase in power.
829
01:17:47,800 --> 01:17:51,069
And, like I said, we can also do.
830
01:18:02,530 --> 01:18:05,590
See the difference is Athens is right down.
831
01:18:09,640 --> 01:18:10,999
I put it across there.
832
01:18:11,870 --> 01:18:13,609
Now you can only take this one off.
833
01:18:17,430 --> 01:18:18,510
Now it's just across.
834
01:18:19,780 --> 01:18:21,729
Well, actually, I'm across the country.
835
01:18:34,160 --> 01:18:35,929
Now flat and said.
836
01:18:56,620 --> 01:19:00,910
So where does the access take place?
837
01:19:10,010 --> 01:19:11,629
Whereas the game take place here.
838
01:19:13,160 --> 01:19:14,160
Like I said.
839
01:19:16,430 --> 01:19:17,430
You have.
840
01:19:27,340 --> 01:19:28,930
You have to make a break contact.
841
01:19:30,160 --> 01:19:33,520
So you have energy coming from.
842
01:19:35,590 --> 01:19:38,920
This battery day until it opens up.
843
01:19:39,800 --> 01:19:45,790
Then you have a ring and that, continues to.
844
01:19:49,420 --> 01:19:53,680
Produce action in the coil on both sides of the ring.
845
01:19:54,370 --> 01:19:56,560
As you can see right here.
846
01:20:06,330 --> 01:20:07,380
So you want us?
847
01:20:19,330 --> 01:20:21,430
So there's a ringing room while.
848
01:20:26,570 --> 01:20:31,399
It's pretty good and actually just larger there from that.
849
01:20:37,880 --> 01:20:41,720
And of course, the wheel turned on again.
850
01:20:48,830 --> 01:20:49,830
For a while.
851
01:20:51,680 --> 01:20:52,680
It's a pretty big.
852
01:20:57,650 --> 01:20:58,650
Offside there.
853
01:21:01,550 --> 01:21:02,870
So that's where your gain is.
854
01:21:05,630 --> 01:21:14,479
That you keep charging up this calf several times and it produces more output that way.
855
01:21:16,100 --> 01:21:20,539
So and I mean there's this is a simple way of describing it all.
856
01:21:20,690 --> 01:21:24,560
I can't get into all the complexities of it, of that format.
857
01:21:25,340 --> 01:21:29,270
But what I'm trying to say is you have to have an open loop.
858
01:21:29,630 --> 01:21:30,889
Of course, like we said.
859
01:21:32,660 --> 01:21:45,859
So you have their off time and then when you offset, the physical world, let's say that it wants to balance itself out.
860
01:21:46,490 --> 01:21:50,810
So once you reach equilibrium so then it comes back.
861
01:21:50,810 --> 01:21:52,070
It's like the last band.
862
01:21:54,680 --> 01:22:00,830
You know, this is where we see it in the wave and there's more game.
863
01:22:01,490 --> 01:22:05,029
So that's the only way you can explain it.
864
01:22:05,900 --> 01:22:11,750
There's nothing else happening here that, really can explain this whole thing.
865
01:22:13,790 --> 01:22:24,020
And so really, all these different inventions are just a way of exploring these basic principles of an open loop system.
866
01:22:24,260 --> 01:22:32,660
The imbalance in the environment and what the energy is, where it's coming from.
867
01:22:32,810 --> 01:22:36,860
These are all things that, some people think they know.
868
01:22:36,860 --> 01:22:37,700
This is true.
869
01:22:37,700 --> 01:22:40,399
And I think it's probably a lot more complicated.
870
01:22:41,300 --> 01:22:45,859
And centuries from now, we'll realize how little we do right now.
871
01:22:47,120 --> 01:22:48,319
But we can do this.
872
01:22:49,190 --> 01:22:56,569
The thing about this is we want to make it safe, and we don't want to run these kinds of systems at higher voltages.
873
01:22:57,320 --> 01:22:59,899
Like, this is only a couple of hundred volts here.
874
01:23:00,680 --> 01:23:10,069
So we're not producing anything, any kind of serious, radiation or anything, but it still is producing a radiation.
875
01:23:11,210 --> 01:23:14,689
We wanna to be careful to enclose it.
876
01:23:14,690 --> 01:23:22,143
Now, I have a couple of things that I'm going to do to close these systems before I start selling them.
877
01:23:22,870 --> 01:23:25,729
And, after that.
878
01:23:26,500 --> 01:23:30,271
That's very important, nobody else has offered yet.
879
01:23:30,400 --> 01:23:34,943
So I think it's very important for our safety that we do that.
880
01:23:35,080 --> 01:23:45,340
So there's what we have right now and, anything else I will add to this video and text form or whatever.
881
01:23:46,570 --> 01:23:50,800
And, I hope you enjoy it thanks you.
86882
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