 I've been pushing it at 31 volts and I've not managed to kill it. I haven't got any active cooling on this little circuit, but I've decided what I'm going to do, because it doesn't really take very much current. You know, it's getting a nice little bit of break, so it doesn't take very much current. And then, what I've decided what I'm going to do is I'm going to put this supply in a series, 60 volts, and just turn it up until, well, I'm going to see it come off nicely. Until I break it basically. Now, I'm not going to push it to where I realise I'm actually just getting absolutely silly. I've had a good, a good go and it hasn't died and I just pushed it. I don't think I'm going to do that. But I do want to see if I can get a bit of spark out of this, because it seems to be quite happy. And it still has nothing to do with it. You can see the diode there. It's not even connected. It's connected to one leg a little bit. This leg sticks out here. That's all this circuit is coming off, this TIP. That goes on to the primary. The secondary plugs into there. And that plugs into the power supply. And that's it. And this is, you know, just to help try and keep it cool. With a bit of, I don't know if it's conductive or non-conductive. It's not such an empanada, I think really. There's a thermal coupling paste coming to that. So, that's what I'm going to do. I know you're using this two-turn or another bomb to the top here. I don't want to get the best effect out of it. So, all I'm going to do now is put this there on tracking. If I can remember how to do it. And go for high voltage. 31 volts so far. I might try a couple of capacitors. That's what this thing was here for. Oh, you can't see. That's what this is here for. So, I can click capacitors into the circuit negative and positive. I just used clips and couldn't want to clip something. Take them out, I don't know. Why do I put amp-brakes? You know, I don't really care. I've got loads of these TIPs. I was killing them all the time. So, I bought a whole load of them. A tube from China took ages to get it. But then I haven't killed one since. So, I went into my scope. Which is acting as my RF detector. So, I'm never going to circuit. If I don't have a bulb handy. Which is here. Let's just tap it off. Something on the top. Oh, it's still on the sides of my brain. Okay, what's the plan now? You can see the LED coming on. The LED comes on if I go near. I'm going to tap it off. There's much fun coming on. Now, this is where I put the capacitor. Just because he's on my panel here. Electrolytic on. Which, to be honest, really, I need to do lots of experiments. What works best, what doesn't work best. But this does help when it comes to doing these sort of things with this amp. See, when it stays on. You get more distance. And more brightness. The LED's on orange. So it's red. Maybe I can do a breakdown. So that's 8 volts, 10 volts, 12 volts. Well, 14 volts, that is. And it's doing just as good a job as what it was before. I don't know what I'm doing. I'm just doing enough music to work that out. That would be 26 volts. Again, deep orange color. Again, not the LED. That's 30 volts. I don't know what the LED is. I don't know what I'm getting out of. I guess that was 16, 16, 32 volts. I looked at what it was. The first one was about 50 volts. Maybe that's like 30 volts. One side for some reason isn't tracking. There's a screw on top of this. And again, the second reason, so, there's 100 volts for a start. I'm going to turn that down and just do some pincers. So here. Yeah, that's pretty warm. I'm not sure if that's another fun thing that might not blow a bit in it. It's just too much warmer. I do get a bit of extra kazinga. The one side wasn't tracking as high as the other. I'm 24 volts, I did 15 up here. I don't know if that's an error. I'm just going to try a different capacitor. This is a cooker capacitor. I think it's 800 or 1200 volts. 1200 volts. I'm going to set a pump.