 I was playing around and I decided to put this on and it made a bit of a difference because the power supply blew up. This side's okay, this side blew up. I know it was outside and all the smoke came out the back and that went a funny colour like a yellow and that just switched off so I'm pretty confident that's going to be okay. It'd be interesting to see what the root damages aren't. I won't stand away with your eyes. Just shift them out of the way and take a peek. So, oh okay, well maybe it's not the actual, maybe it's not this. I can't see where that fuses blown up because this is actually from here. That's from the display. That's where the handle would go in the side there. So that's from the display. The switch has already died. I've, the back this, I don't know if anyone's noticed when I've been looking over across at this. It's in the off position but the actual switch itself is dead. It doesn't switch off anymore, it just stays on. So, this one still works fine. Look, I've still got power at the back and I've still got power here which I haven't got a display. So, the boost converter is still working. This is still working, brilliant old R-Detect. There you go, man. But this is dead. Never mind. So, I've just nicked this out of. I don't really need it at the moment. That's like a bit of a backup really, no? But it's great because I've got a minute for my battery or for these but you know, I digress. So, I'm going to put this in there but in order to prevent this because what's happened I'm pretty sure is it's just, it's burnt out the display, you know, a little bit more. So, in order to prevent that from happening because at the minute this has got 36 volts coming in. 24 d-seed. I've put a 24 volt regulator on there because this has got up to 30 volts but it's not happy with 36 obviously and with, you know, this type of load I presume doesn't help. So, I've put a 24 volt regulator on there and rather than fanning about with, you know, the board or anything, don't need anything, just need the regulator and at the side here. I don't know if you can see that. That's the output. So, I can take ground from anywhere else. I'll take the ground from here probably just for these and then just put the positive wire for the display side of this, these ones, onto that and then just have that connected as usual. I'll lift the wires there to connect to there. That's just sort of, yeah, probably a little bit of just tarnishing kind of from the heat damage and that should be it. That should put paid to hopefully that happening again because I was worried that if I would have another one in it's going to happen again and it's because, you know, we've got a 30, 30 volt limit on the actual display itself and that 24 volt regulator will do that. There's hardly any power. This will hardly be drawing any power and the regulator is good. You know, first it's going to be hard for 100 milliamp possibly without the heatsink and if it finally gets too warm I'll stick the heatsink there but yeah. Okay, I've been playing around with this for quite a bit though. You can try changing that, well, not changing the coils, just putting extras on and just seeing if it makes any difference and very mind you if anything you can tell changing all the things that go around. So what I'm going to do now is because I can see the sort of distance of sparks we can get off this the way it is with this circuit, I'm just going to swap that circuit now for this one and I won't be keeping any of this or resistors or these. It is literally just going to go on, it's going to center tap on here, it's going to connect here. We're going to power it here, give it 12 volts, see what it's like, just keep the rest of the way it is. Let's see what happens. So there it is connected up. I don't know what I'm going to do now, it's just some power. It's a bit crammed but that will do. I got that going to there. So I'm just going to connect this up and nothing. That probably means that one of these isn't connected properly. Oh no it doesn't, it means I forgot to put a capacitor. Okay so that's 12 volts and this doesn't really do anything. Let's see what it's saying there. So we'll just turn it up a little bit going to 15 volts. Again try that. Of course if I take it to 18 volts I'll just make that a little bit wider, the gap on the spark for 18 volts and then we'll see what it's like so it seems like in this configuration even I just just run it out to 20 volts there just for a few seconds just to see what it's like and it's no real big difference. I'll do it now. There's no real big difference. It's not as late as you get a big jump across here or anything but it is faster of course. Faster and it's good it's got that little extra. It's a bit of a safety doesn't it? It could probably do with a safety yeah, something like that somewhere. That's something I didn't put on those other resistors or those other components on your board. So it's not really doing a great deal extra. I like that. How you're at 20 volts you can hardly see that jumping across. You can see a little tiny bit. Let me just turn up that back light. Better give it a chance. So we can see it now. Just discharging. That's a lot better isn't it? Okay I reckon I can move that back a bit. We can just notch that back. It's the little bits that make the difference. Discharge. Not much. Discharge that's good. I'll press pull though so I'm just going to just a little tiny tiny bit forward just a little bit extra. See that's it. It's makes a pretty much noise doing it. Right I'm going to have a little think of some pots and have a bit more beer. Didn't notice that that's gone again. But if you turn it off and then turn it back on it's alright in recycles. It does that every time. I'm going to turn the power down just a little tiny bit and see if it'll still be as good because look 24 volts is quite a bit really isn't it? Where's the power button? How do we do this? There we go so turn it down to 20. There we go. Using less voltage. 20 volts. Okay so we can get down a little bit further. Let's go down to 18. It's not down the power supply. I've still got power going in. That's my power there. Do you want to have any power there? Have I done it again? I've got some fluff in the belt. I'm glad it's not this at least I don't think it is at this stage. I've got 28 volts coming on both sides of this but every time I get this one in it shorts out. Now on the secondries it seems to be okay. 8 ohms. 3.8 sorry. But here I think it's 0.2 ohms. And it's just shorting out every time. I'll just check it again and show you. 2.3 ohms. What do you think it would be? I don't know. That's okay but it's different to the other one. This one is more like 8 ohms. But it's working. I'd say it's working. It's not short enough. I've not actually connected up to it to anything just at the minute because I just kept shorting. So I'll just go over 10 ohms. Look on here. Just do it a minute again. There's a big difference. It's just shorting out. It's just blowing the fuse and the plug socket. Maybe someone connects up. So that's no good the way it is. There we go. I'm just going to turn it on. We have resumed power. Hey. Yeah that's it for tonight mate. A few good sparks.