 Hey YouTube, okay, so this is I'm gonna try making I've tried to make this video a few times We always turn that too long, so I'm thinking of ways to cut it down So first of all, I attempted to build this circuit here Which is like the well, it's the same pretty much as the crock-croft-walton multiplier Apart from it's like reverse So you get a negative output Yeah Through this chain of resistors and you get a like negative ion Release into the air so That's good So I thought I'd build that I got these capacitors 47 nanofarads. I've already got the iron for 4,007s It's not a problem put it together and you supposed to put 250 volts into it You can see what it says here, and then you get a voltage around 7.5 kilovolt out well There's a voltage Multiplying circuit none of it adds up. Oh, it does add up, but I just don't see it because of my naivety so What I sort of came to find out was that if I put I ended up disconnecting the circuit it wasn't working. I've connected 240 volts through these two Transformers here hold on the window because the road traffic is too much Yeah, so so through the two transformers there again from the auto transformer variable AC transformer So I've got some isolation, you know, but I need 240 volts So I go from 244 12-foot output 12-foot 12-foot output of this I use as an input and I got 240 volts coming out of here very limited on Current which is good. That's what we want. Do I make it safe? That's a whole idea so Connecting even that up at 240 volts I didn't get I didn't get what you'd expect to get from the Information given here to what I got so These capacitors here at 680 nanofarad these capacitors here at 330 nanofarads These capacitors here are 47 nanofarads. So here we go. We've got 680 330 and 47 and these are the voltages 2550 It's 75 as you can see it. Okay, so what's interesting is 680 nanofarad 2,000 2,245 volts Measured with that there that will only measure up to 1600 volts So I tried getting to go higher doesn't it just come to 1600 But that of course I can get 2,500 that's 3000 But I got sold it as all perfectly working, but the this doesn't work. So I need to check into that So what's going on? But anyway, don't rest so 175 volts We got 245 2,000 245 volts at the 680 nanofarads 2100 330 and out of 47 We got 1260 Big drop When it comes to different resistors Now that was with five times Because another thing with this circuit that I found is you go up sooner stages and you keep increasing increasing And then it starts dropping off Unless You give it another voltage surge so you up the voltage and then it displays different characteristics And I'm sure that within all the physics and everything there those are very Complicated and comprehensive explanation of why that happens. I can sort of guesstimate it in my head But to try and give What it happens is I can't because within this Arena if you make a mistake, you're hung for it. So let's just not bother. This is why I don't do a lot of the The maths when it comes to some of the circuits that I do because I know that if I make a mistake rather than me learning this and Attempting to build these things and getting them working rather than that be the thing that I'm judged on I'll be judged on the mistake So it's not worth it. Yeah, it's just not worth it So That was up five times so we got five one two and three four five Yeah, and then I cut these end off here as you can see look the splits Built it like this so I could just separate this end because that's the three thirties before six eighties and this The way this was actually set up in the first place here If I switch this around Move this over to here Voila look and as you can see This is how And then we got this like a scorpion thing and I'm there with Dave but the needle at the end to Because it's nice Nice rounded edges on the tip of the needle. It makes it easier to do that The ions get the irons into the atmosphere. Anyway, I think that's the way it works so In order for me to sort of make that similar to that I had to cut it and flick it and then my my my first diode goes that way so when the The signal comes in the current comes in comes in here goes through here through this cluster and Charges and then of course when it goes the other way this capacity has already got some charge on it You can't go through here. Of course, it's going the wrong way So it's going to go through here this capacity is going to be discharging as it charges through here partially It's not a charge fully and as the cycles As the cycles keep going with the frequency this all gets charged more and more and more and more and more Right because there's losses so it's on charges. Don't lose a bit and all that sort of stuff There's a lot to it, but I'm not going to try and explain the whole thing in this video So I noticed as big differences and now I just want to show you something I'm here as well because this is one of the things that peas me off about this as you get set up and What happens is is look it says it's out putting it's not out putting it's all because it's it's off here So I'm This can be now. I've noticed it. It's not so difficult, but when I first started using this it was I was getting some Right messes I didn't know if it was what I was doing had a problem, you know in the circuit So it was all quite annoying. So what you gonna do? She's gonna you got to turn it off and turn it back on again And what it does lucky as it goes straight back to the the frequency and everything that was on before and now I can I can adjust the frequency now Okay, I must that's pretty much where it's supposed to be because that's where it was Left off last night, so Little bit and that's that's that's that's much better. So we're at 50 50 Hertz and $10 Now I don't want to bore you. We've gained rule of all these again but like I said What I found as well was With the seven times you got slightly even with the seven times 47 nanofarads the best I could get an actual fact as you see look from seven times seven Stages but on the 47 nanofarads Against the five stages these two are close together here five stages and seven stages So even going from five to seven we were dropping and that's at 175 volts. I Couldn't really for the 680 seven stage. I couldn't go any higher than 150 volts and then for the eight times stages 140 volts got me 2,500 volts and at the 10 times 123 volts coming to thousand five hundred volts so I Just thought it's interesting. I think this circuit is quite interesting the way it's all like pumps The rest the rest of the circuit as it goes down There's quite interesting so here, but I do really need to get this off my bench because even though like I said There's I've made so much video to this, but you're gonna get this really concise part because I Just need to pull it apart. I need to get on and do other stuff My my drone is actually in bits at the minute because the flight controller. I think it's popped The inside sort of caught fire. He didn't catch fire. It's just one of the wires burnt out and It's it's it's it's into repair, but that is taking forever to get any help from Where it came from that anyway, I'll go into that one another video so interesting Interesting part is this too. So what I'm gonna do now. It's in very quickly. I'm just gonna run Once today we got we got we got 50 Hertz. I think you see the voltage is there Let's if I just turn that up anyway, I'm gonna just turn them up Well, it's 20 volts Now that blue line sort of to two symbols that I'm also gonna switch onto the square way it's easier. I Can't do very much about the window So as you can see the voltage is there And of course, we all probably know that so you can see that 57 volts over look at that one there If I turn up the frequency, so if I turn up the frequency only a straight 150 You see what happens here, you see that blue one going up. Yeah, what's the way out? Let me just And then we're gonna go to 250 Hertz watch that blue line This one here 350 Hertz 550 Hertz, I just skip past the format. So you can see that blue line story not five six seven eight nine One kilohertz I'm 50 because it's still left on that so we did have we did have 50 51 volts or 57 volts or something now Look 210 volts Same input we've got the 20 volts peak to peak so like five volts five six seven volts or something AC There's a frequency. We just pause it. I'm just gonna show you the the Voltage going into this On that meter there. Let me just set it up second on This can also be a bit of me to understand sometimes. I'll just move that back down to 50 Hertz 50 Hertz 10 volts but it's it's saying Which is a little bit strange because It's not really supposed to be doing that Why would expect it to be a 10 volts be more like three volts? RMS against peak to peak. So let me just switch that off Do it again switch back on again Just doing the same thing. Okay, so I'm just re-cycle this power And this thing always starts up at 10 kilohertz at 10 volts peak to peak So if I just do that again, but you can see that that's there take her. It's just recycled it Now it changes its voltage We just turn off this other channel Oh I'm just gonna go down to What I'd want on the 50 Hertz again. Okay And that's and that's 10 volts peak to peak. So I'm just gonna go down to zero And now we got 3.5 volts and that was the same as what you can see a minute ago about five volts. So this I don't like this. I don't like this at all Because you have to second second check it now, then you'll be wrong when I bought these meters It wasn't just about the way they look and the history and the fact that that's thing is only a few months out from my day of birth It was because of the discipline that you can get using these meters You can't reverse polarity. This is all sorted all out for you where these you need to Understand what it is you didn't Give yourself the discipline So anyway back to this See you so we got that so I'm just gonna plug this back into here again. Just reconnect it up We do this like this. I just don't want to waste your time Me faffing around with wires And so we're gonna go back on that again. That's it's a completely different frequency I need to just zoom out on that again. So Let's switch back to this square wave We're all been easy to play with And we're still on the same Fortune frequency there, but if I turn this basically now back to the way it was when I put it When I put it to do the one one key, which is what that is So that's gonna put that back there and as you can see That's gonna be it's a hundred and four volts At the ten and just get out of the zoom in focusing even Sorry about that the bright lights. Let me just sit on this one Yeah, it seems apart from moving the whole place around or something. I can't really do a great deal about it. So My camera's decided doesn't want to focus anymore. Oh, okay, so now it's going to be So then again just to show that if I turn up the by turn up the the input So we got that tiny volts peak to peak It goes up there We got to do in 10% But it doesn't go Proportional depends what the voltage that you put in Because like I say, you know, I could I Probably won't get higher than this there, but when you take into the account the amount of The amount of multiple stages are here that should probably be higher But maybe not I don't know he was an interesting Play around interesting experiment and of course the last little tiny bit. I don't know It's much time. Oh my god, it's 15 minutes already It's just to see quick exactly the same here what that looks like at 10 volts 50 Hertz and at 1,050 Hertz and it's 20 volts So what I'm gonna do is I'm gonna just disconnect from here. I'm gonna reconnect up to this one here Yeah that way around reconnect up to this and we'll have a little look at this for a minute or two So here it is just set up exactly the same way but we're still on that 1,050 Hertz and 20 volts peak-to-peak even though Yep, 20 volts peak-to-peak And I've just gone and stick it on the end of there And that's that's what we get from this particular setup You can see the voltage there Really that high at all sorry for my appalling camera work Sorry, I've not taken an occlusion lessons as well for those that have suggested that I go for an occlusion lessons Or that I talk like other people do on YouTube and now I'm just gonna take this down to Down to 10 volts And so it does We make a lot of difference on that peak output there on that 49 volts 42 And I'm gonna come down in That's 50 Hertz And really to get a good look but this is I'm not trying to Too busy looking at the camera. I'm trying to do around me. I'm not trying to show Basically this the way that is I mean we can see I've got 35 volts On that blue line Division and that's the way it's been all the way through and these other ones are 10s. So I probably could switch these down into into fives Did you notice that I even have seen this bloody things out of focus again honestly, I love this camera Don't get me wrong, but there's so many touch screen parts that That can cause it to not do what you want it to Constantly see the So that's all at 10 volts now five volts And you can see the drop-off on these capacitors as well charges up and just starts discharging and It's not a tutorial. It's not a Great demonstration of this. I was just prepping around with it spent Quite a few hours over last week actually just playing around. It's just watching it do different things It was more to basically see if I can get this to work and And to get some use out of these things on high voltage Well, it's been great fun. Absolutely love it. Absolutely love playing with these as well It's nice to have two meters that can stay permanently on measuring voltage and ampage Yeah, that's how I'll have to look into this again and Try it again, but like I say I put the 240 volts through these isolation transformers onto it And I certainly I couldn't get it to release anything you couldn't hear any I on winds or you know, just smell any freshness from it Pity because I really wanted that to work and I was gonna make a much smaller version But I think the way I've got to do it So I've got to do it with different capacitors and that's I suppose that's if there's anything to say here It's the passes make a big difference Like as you can see from that that's the same as what we were looking at it from there And there's a massive difference there and that's just the difference in clusters really and I thought there'd be more Resistance is probably through there and what there are through here So you'd expect that we're probably not to perform as well because it's set in that socket board and it's not even a decent quality socket board either and Real cheap ones from From far away places, but there we go. I Hope this may or may Well, I just think it's been useful to anybody that's thinking I'll put one of these to the other And was just wondering whether it makes much difference on the on the capacity of the capacitors of these particular ones It does. I don't know what it's gonna be like against of the capacitors. I've already tried these But it seems like the more smaller the narrow far as you get with ease and the less energy you get to transfer for your stages Okay, cheers watching guys