 Hi yw YouTube I don't know if you remember that my power supply is sort of... I still have not managed to fix it I'm not quite sure where I'm going with it But what I know is that I can replace it with £47 If I want to get one of those But I'm going to try and utilise some things I've got Like I've got this meter I've got this buck converter Mae'r cyllid yn amliol. Mae'n gyfrif y clywed arnes. Mae'n rhaid i'r clywed y cyfriffyniad. Mae'r clywed rhaid i lludio ac mae'r cyfriffyniad hynny, dwi'n ei wyniad ychydig o ran y panel. A'r cyfriffyniad yn cyfriffyniad. Mae wedyn sy'n fawr. Mae'r cyfriffyniad yn unig wneud o'r ddechrau. Wel, rydw i ddim yn ddweud i gael y fan o gwybod yn ddweud, ond rydw i'n ddweud i'r ddweud o'r panfodol 80-odd, ac mae'r 11-odd yn gweithio. Rydw i ddim yn ddweud iawn, rydw i'n ddweud i'r 45-odd, yn ddweud i'r 45-odd. Ond rydw i'n ddweud i'r unig o'r blanys. Rydw i'n ddweud i'r blanys. Oedd wnaeth ymwneud yw'r 360 power supply. A dyna ymwneud yma! A dyna, dros eu cyfrwysau, gyda hynny'n wynt i ni. O, how bad it was? Cwys ei adrwg eyu, mae'r pryd yn grŴig. A rwy'n i'n gweithio... Ond e'n olygu i gyda bobl i'r jeunc cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael cael. . Dyna dw i chi wedi bod yn cwyddog, wath o'r cwyddog, yw'r Xbox 360, 175 watts. Cymru, gallai ei cyfu ddwychion 175 watts, dwi au 14.2 ampers y 12 volt. Dwi dwi ddweud, a dwi ddwy burnswch, dwi wedi bod rhywbeth. I was going to do the video, but because I cut these off here and these already can't pull together but I've not tested these, now what I want to do is from what I understand is I've got a high ampage toralbal output and then it's split off into three protected I'm wondering, as I tell you what I've got coming, I've got a, because the current control doesn't work on here. So that makes that a little bit, if I want up to 10 amps, there's some voltage but it doesn't go below like 10-11 volts, this is what I want. But I found this thing, which is basically, it's a dual board, it's called a pressure lift system. And basically what it is, is it's got a buck converter on here, and it's got a boost converter built into it. And it will give you, I think it's up to 50 volts now. There's so many things I've read on these, I've got to be careful not to get mixed up. But anyway, basically the one that I've got coming gives you, I think it's up to 35 volts, 5 amps. And it will also, and that runs from 12 volts going into it. So I could run on one of these 12 volts going into it. And because it's only a 5 amp system, what I want to do, is I want to find out which pairs of these go. And I'm wondering whether I can have three power supplies off one of these supplies, individually protected. So I could have a 5 amp, another 5 amp, and another 5 amp. Now I've seen some great little control units, which have got watts, and volts, amps and watts. And they all go up to 5 amps that they can, well it's about a 7 or 8 they reckon, but 5 amps is good. And I'm wondering if I can get a price on them, I could get three of those into one, and have one of these power them. I could, you know, I've already got 12 volts on the output, but I've got 14 amps per one of these. Now what I want to do first as well is test, make or break type thing. I was always going to connect them all up, and series them. So buying those positives together there, the yellows, connect them to the negative that side, and I've got positive here, the yellow, and then negative on this side, and see if I've got 24 volts. So just before I get into any more planning around with these, I'm going to see basically if I can run two of them in series. So there's one lead that the output and all the 12 volts are tied together, all the grounds are tied together. The switch is tied together there, switch is on, and on the other side we've got the same thing, exactly the same thing. And then there's a jump lead going between positive and the negative. Positive on this cable, negative on this cable, positive on there, negative on there, going afterwards to the multimeter. I'll just chuck both of these so they can be switched on basically at the same time. And so they've just kicked in. Then we've got 24.4 volts on the output. It's great because that was backed up with like 14 amps. That's a lot of power to play around with. So I've also got this power supply underneath here, which I've just checked, and that seems to be working fine as well, and that will give me 3 volts, 5 volts, 12 volts, negative 12, half amp. But it's still quite a lot of current there, so to pull out light up a bit. I've made a sort of power supply, there we go. I'm using this boost converter. And at the minute we've got 36 volts on there. I'm about to turn that up actually to 40 volts, which I'm not sure if I should do. But I just want, oh no, maybe I shouldn't because I'll be turning that up way too much. I probably need to turn it down actually. More to like just a lower voltage. Let's say 24 volts. But that's a bit cheating because basically what I've done here is, I've got the two power supplies. I put them in series and I've just stuck it into here. So now I've turned down to 24 volts. What was I on? I was on 36 I think, wasn't I? Let's have a little look because what have been? Yeah, so just playing around with this little thing, just to make sure that we've got power. It all works. And I've got thermal fuse, my thermal fuse are these wires here. They do get quite warm, especially as I've had it up slightly higher voltage. I'm going to turn this back up to 36 volts. But I was actually going to go to 40. But I don't want to break my fly back. I thought it was broken, but I don't want to break it. So just while that's there, I'm just going to see what sort of current this draws. Okay, I'll turn this off. But I expect my thermal fuse, which like I say, oh, that is hot. Yeah, that is hot. It's too hot to touch. They're not going to allow me to go too far. Of course, what I really want to test is that coil up there and put that onto the output of this. I've decided for my next switch mode power supply I'm going to use these two switch mode power supplies. And I'm going to make them into my next bench power supply, let's say. Which is going to have a couple of few outputs on it. Well, at least on there, that still works. So I'm going to get the coil down now and give that a go. I don't think I'll start it on 40 volts though. I think I'll go all the way down to as low as I can. With this configuration and that's 24 volts. Just because, like I say, those two 12 volt outputs of these two here, these two Xbox power supplies are in series. So they give me 24 volts there, you know, with a 14 amp load on them if I want to. That's quite a lot really, isn't it? So, let's switch this over to the coil and have a look to play with that. OK, it's sort of set up with the coil. I've got my, basically, it just lets me know whether I've got an output on that low voltage. But look, I'm on 28 volts and I've put a coil on there with more windings. And it works out for me like this that at least I draw more current with one turn. So I put a piece of wire just around here and back to here. One piece of wire just goes around and back to here and I draw more current. So in order for me not to draw so much current, I've put on a coil with more turns. This one's got four turns. I've got another coil with three, I've got another one with two and I've got one with one. But this is at 28 volts now. I'm watching what I have in the background. Some quasars and quirks, quarks and all this sort of stuff going on. And what's just happened is I was on 42 volts unknowingly and I set this going. As you can see we've got resonance, resonance. And I set it going and my speakers. Now I've tripped out my computer before with this so I'm not going to go. I'm not going to try and draw more power through it because I could. Look at any of my other videos and you see what I do when I've got the single turn or two turn coil on. It makes a big difference to how much power this draws and I've got capacitors on. These are the capacitors that are in line with it. But that's what it's doing. Half a volt, half an amp, sorry, at 28 volts. But watch what happens if I go up a little bit. Or I don't want to break my computer. This is what I don't want to do. I did just think about taking it into the room. So I'm going to put it on 40 volts, ok? But remember it's not going to be drawing the power. Now I've got 24 volts going into this boost converter. And I've got 40 volts coming out now. So let's... You see? This is the sort of polar guy stuff I don't want going on inside my computer room. 40 volts, right? Watch. Ok. Let's... It sends everything nuts. Watch my computer. That's alright but it hear the noise. That thing on the screen is me paused it. It's not just... But it's affecting this light here quite a bit. So I'll turn that off. But as you can hear that comes out of my computer quite a bit. And I don't really want that going through... Radiating through this room. Because the reason why my computer is sat down there outside there again is because I had to dismantle it. Because the last time when I ran this... Well, the second to last time when I ran this... I blew my computer first. It wouldn't boot up, it wouldn't do all sorts. Well, it basically just wouldn't boot up. I say wouldn't do all sorts, I mean... Even getting past the BIOS was a problem for it, ok? And so what I don't want to do is I don't want to do that again really. Then this is why I'm hardly drawing any power through this. You look at this, look, 40 volts. It takes it down to 1.3. But it affects... At least we haven't got the noise coming out of speakers now, I wonder why that is. That's not 40 volts. Now I know that these tipped 35s can go up to, I think it's 100 volts. But I want to give it an overhead of, you know... I mean 40 volts is getting pretty close to it. So I wonder if I can take it to 50. That's a big old jump, as well, isn't it? So maybe 45 to start off with. But the first sign of it doing any damage to my computer. I'm going to switch it off. So let's hold up. Let me get ready to press down. That's 43 volts. Or I can actually feel it on me. Wow! I can feel it on my arms, on my forearms. It looks like I... I feel like a little needle just on a few parts of my skin. No, no, maybe that's not me. But I know now that I'm radiating enough problems for it to go through the air system, into my computer, which is just gone off-screen. Polly, is that not being a thing, dodgy. Well, we're good. We're good, we're good. So at least I know when my coil still works. I need my transistors with anyway. And I know that my Jacobs ladder thing here, even though you can't see it. I know that still works. I'm going to get into the process of building the voltage charge pump circuit. So, well... At least I know they work. Both of those being dug out at the box. Or boxes, I should say. One was right in the back of my cupboard as well. That was a lot of pain. And today I'm going to use... So what I'm going to be able to do, I'm hoping that if I do blow, like the front end of this, I only blow this. And I'm actually going to build another front end anyway. And I'm going to buy a couple of front ends for these supplies here. But yeah, so 44 volts, look. 44 volts into this tip 35. I might be able to tell a bit more fun with that. I might be able to put something on the top of there. So that's got no plate on there for capacitance or anything. It's just taken from the air. And I'm using my really, really thin wires in order to have them as like a sort of fuse. Cos apart from having this fuse in here, I don't really have a great deal. I do realise that these are fused. And they've got all sorts of safety protection on them as well, which is really, really good. So I don't even be interested in this sort of thing. I just like playing around with it. And I just wanted to see... I mean I should take it up a little bit higher. I should like go on and let's take it up a little bit higher. I just don't want to kill my computer. So let's go 50 volts, yeah? I'm flashing all the light things that are in my head. 50 volts. Just for the single. For a little tiny car. I'm just going to push that now. Just cos we can. Let's go for the 60.5. OK, that's definitely doing some... out of my speakers. I'm going to go up very, very slightly now and just see if I can just push this a little bit further. And I'm going to go to 65 volts in a little bit. 65.1. Just see what is the light now. But this is probably going to be the last one. So I expect someone to go pop now. Definitely lots of sound. And then we get that come up nice. OK, so let's turn that off. Well, I didn't see what power it was drawing actually. So look, that pulls it down to 44, 1.85 amps. I wonder why that does that. So it should be enough power to come through all this. That's going to limit it a little bit. Having all those turns there. Maybe the YA's as well. Cos to be completely honest with you, even though they're not burning up, I can't really see them allowing a whole great deal of current through that voltage. A little quick look. It still keeps pulling it down. Probably had it go anyway. I could try some of the coils with it, but I'm going to get my dinner first. So anyway, if you've got this far, cheers for watching guys and I'll carry on doing some experiments and see if anything good comes out of it all. I'll see if anything goes bang, that's always a good one. Cheers watching, bye.