 okay so all of them now is I've got two of these transformers you see so I connected up each transformer for two seconders into parallel rather than being series so I've got 24 volts one of the reasons why I was using that was in order to so I didn't go over the 48 volt that you could end up with like 70 some of volts DC which was too much for this but at 24 volts coming out you see I've got like sort of 36 volts open 32 volts 33 volts with some load on it so that's well within the range of this this booster and 260 volts into that but of course then they're still lacking a little bit on current because those chips there even a single chip I've had it running just under five amps before and there's two chips there now two transistors and we're not even drawing five five amps yet so I wound up I connected the second ones to two seconders into parallel as well and then I connected the two transformers together in parallel so we've still got the 24 volt AC but we've got all the current each winding's got 3 3.3 amps on it so just a little over 13 amps available now which is much better so and it's all just connected the same way again this still just goes into the bridge rate to fire that's good for 25 amps into these a little capacitor bank I got a discharge resistor there and then from there of course just out of here into the booster booster too and got the same we've got this on here so you get to see what's coming off this and on here we've got the output of the booster so I get to know what's going into this as well as it says on here but it's nice to see over there just in case there's anything go into dodging and of course the two power inputs because they're in parallel too because you can have it you can parallel these up and have it for 110 volts oh I said that right yeah yeah yeah because I put them in series it's in series I've got two inputs the primaries are 110 volts and I've got them in series so it does 240 volts you know in the same for there and they're just connected again in parallel and so paired into the um connector block there which has got the fuse and everything that I've not grown in in rush let me throw on it at the minute because I've got one I just couldn't be involved to put it back on yeah sure are we all right so I'm gonna turn off this lamp and move it out of the way just have a little quick demonstration let's get that lamp out of the way okay so we've got 35 volts uh volts sorry 58 uh quite good isn't it oh it does as well I think you can see that okay uh we've got 58.1 on the input it says there so okay that's just there it's just going to be a trial run now it's not going to be trying to push it to its limit or keep it personal twice should get a breakout round about oh no you've got the scope on a minute this is all been working okay so we've got the leds on they break out from 14 volts now 15 volts 16 there you go 17 volts a bit of a breakout and up here it's about 30 volts or something okay probably just die a little bit if we're up away just don't need to turn the wire just to stay out of the way a little bug me now that will excuse me looks more powerful it does so okay well you got nearly three and a half ounce and then 20 uh two watts 38 volts we've still got some voltage so we can go up so around 40 volts now that's 150 watts 42 42 volts 45 volts so we're still just growing that 200 watts but no worries about anything messing up backing up just looking through the check on temperatures and again the little dp 50 15 they need to fluctuate the fan doesn't even come on because there's not enough going on it's actually cold it's not got any warmth yeah they're still cold a little time a bit of warmth no no no i'm not gonna say that because they're cold to the touch like touch the cold bit of metal and that's just room temperature really okay still the same sort of setup but i stuck this on this is a a vitamin tub i just wrapped it up in tinfoil so uh let's do the output let's do the oscillation over there a bit of break out 0.7 amps okay imagine it's probably getting quite warm here here's start to turn it down cast in 230 watts i'll just show you that seems to work all right and this seems to be uh certainly working okay as well i got a little bit of a puzzle i wonder if anyone can help me out here fan from out of a computer power supply that's connected up to this power supply here this power supply runs off my batteries yeah so it just goes through to the charge controller down below the desk to the batteries nothing to do with this ac circuit any of this nothing to do with it completely different thing this is wide to the mains through the boost through this and this is to the batteries now watch this look let me just uh let it go in so we've got oscillation right um run 12.6 volts over there i hope you can see that's a bit rubbish isn't it that's really bright yeah um okay so 12.6 volts there right now i'm gonna turn this up so we got this little oscillation listen to the fan say that down as i go up and it goes down in voltage and it still goes down in voltage i'm not drawing any more power or doing anything strange over there 236 watts is just curious that's the way that does that how strange just uh a quick a quick one just to show it can get um 300 watts here's my fans winding down got a breakout low 300 watts just over six amps at 50 50 volts you can have a look see what it's like when i try to pull some plasma from it i'll take it up full blast