 Ac mae'n gweithio i gyd, mae'n gofyn ar y llwydd, ac mae'n gofyn arall. Mae'n gofyn ar gyfer y llwydd yn ymddangos ar y llwydd. A'r ysgol yna ar y 3,3kg. a we have the 100 puff gun in between the front side of this resistor and the base and then the side of the resistor is going to be going off around a negative side. Let me just look at that. Now we need this. The other end of this is going to be connected to the output. Right, so let's have a look what we've got going on here then. So this is our base collector emitter. That's our emitter that's going out there so we need the collector of the other transistor, one of these, which we want to be in here like this. More is pretty down close as we can to it. This is basically going to go like this, but the other way around. We need to be able to have access to it so we can actually put the transistors in like this because you remember we've got to get this onto a heatsink. But we're going to build up this on the side first and carry on down the way with that. Okay, let me just double check one thing. Yep, we're good. So let's just have a look and see where we are. So we have this connected here. We're about to solder this and the top end, this end, wants to go on to this connection coming through here. This is from the 22K all the way through. It's got some connectors onto it. It's the 100 microfarads. It's all the way through to this end of this resistor, but on this side of the resistor, this side, we also need to get the collector of our main output transistors. That's going to be done the same on the other side. See? All right. So we need to be thinking about connecting this and how we're going to get this connected to that. So if I just get through here and connect this in the first place, we've still got all this area that we can take off that next transistor. I think we may be taking some sort of connection up like this, but we'll see first. We'll see first. Let's just put that there. Let's get this one connected while we're thinking about it. That's definitely going that way, isn't it? Yep. This is our 22K here. This is the drawing from the capacitor. This is travelling up through here, which will eventually, this is going to connect onto that 22. We'll look at the end there. Now, we also want to get another one in here, but let's get this side sorted out. Let's see what it looks like so far. There you go. Not as neat as it could have been. I made a mistake in there, didn't I? There's the underside so far. Right. Let's work on this other side then now. Just so we can keep everything going up nice and neatly. Right. This here's our 546, and we have this here. This is for biasing and currenting, and now we need this for the driver side. Out of the collector, the collector of this, we want a connection to the base of this base collector emitter. I'm not going to remember which one this is, so this is our base. Let's just see if we just pop that in round about the same, so the level is if we can do it. The other one is just for neatness. That's about right. We want to be able to go our base down there, but we're going to make sure we don't run into anything else. That's our collector that's going onto that one. One K there, yes. So our base is going to go down there, and then our emitter is going to come to the other resistor. So let's just put that in just to place it in there. Now should we do it that way round or this way round? Decisions, decisions. Let's just do it this way round. We're going to be about the same sort of distancing. So just to keep things looking neat. One two, one two, one two, one two, one two. Because again this will be meeting this down here, and they're going to be joining that so we can just put that there for now. Again we want to bring the base back then. Because that, yes, because the emitter, base collector, and then the emitter. Oh, you're darn it. Two, two, two, two, two. Yes, so our base collector emitter, so let's just make sure we get this right way round. Our emitter wants to be going either the front or the back because we've got to get the emitter. Unless I put that in that way round, then what will happen if I do it like that? Then we'll have to have base, the collector can go backwards that way, and the emitter can go this way. And the base can go backwards. Now is that a big problem? I don't suppose it is. If that were to go in like that. That's such a big issue isn't it? Because then at least then I've only got to move out the base and then the collector can still go that way. Or if it was that way round just to make it look nice and symmetrical, the base has to come back. And then the collector emitter needs to be crisp over each other. Can be done, but let's do it this way. Let's do it this way, so let's just bend one of these for the base. I'm keeping in mind that the emitter is going to go this way. It's got a connector here, base collector emitter, and the collector is going to go behind it onto the 2.2. So I'm just going to bend this one back a little tiny bit. I'll bend it here. We don't want it to go too far back because we don't want to make it look too. How's your father and all over the place? So let's see if we can do this. Remembering base collector emitter. Let's not get this all round this time. If I put this in, secondary in there on the third round, I'll do that like that then. Probably go a little bit closer to that as the base is going to be connected down here. The emitter is going to be there, so that's nicely going to be neat. It's a bit hard for me to see. I can't forget that's what I use this thing for. So this really is running down the third, so I want this doing the same thing. So if I can have that there, it doesn't have to be as faffing about symmetrical as well. I'm trying to do it. The collector is going after that, and it's also going to this. It doesn't have to be as faffing about. This is just me. This is just the way I am. I want it to look. You know, equal. Does it really matter? No. So the emitter, so we've got our base. Base is coming down here to connect to this. That wants to be. I'm going to connect it up to this bit here on the base. The collector side is going to be going off to this. So we can bend that down to there. The emitter side is going... The emitter side is going... I had to get that right the wrong way round. Sorry, I didn't, did I? Let's do it again. Base collector. So the collector is going off to this side, because that collector is going to go on to 220 ohms to this negative rail. A positive rail, sorry. And the collector side, which is this. The collector side base collector is going there. The emitter is going on to here. I've got to get these things right, but it's all right. So the base collector, the emitter. I'm just going to round there. There you go. I'm just going to double check. Double check, double check. So base collector is going to 220 ohms. And the emitter, base collector emitter, because there was some room in close, is going to the bottom part of the resistor. All right, let's get those tacked in. Do you know how I prefer to spend five hours building this thing? And spend twice as long taking apart a mistake. Because that's what ends up happening. If you make a mistake, it takes a lot longer to sort that out than it does if you just double check, triple check. A lot longer. Right, we need to connect between these two here now. Bit of a jump thing, so I'm going to get a good old, good old bit of solder there. Quite done it. Old bit of solder. Here we go. We want a 220 ohms going up to the positive side here. Right place, and let's get that 220. That's supposed to be the 220, isn't it? Two reds, two blacks at a brown. Directly from underneath. Directly from there, look. From this one here. And then underneath, I'll go to here. Up to there. When I heard the banging from downstairs, I went down and just been able to see lots of banging. I said, no, no, no. The electrician was there. Of course. It was banging. Put is gone now. I managed to get something to eat. All right, so we're up to the 220s and we're up to the basis of these. So we're at the basis of this here. We're at the base of this here. Now this is the power transistor, because it is the 220. Now between the, oh dear, I could have probably left a bit more space there, but never mind. That's where the power transistor is going to come off. Now this is where it might look a bit messy. So let's just check which one we got there. I may as well just stay on this side for now so it's more complicated if I had a little touch it up and probably move this over one little thing. But it's going to make no difference. It's going to make no difference. It's going to make a nice connection, actually. So this is the 34. And this is the completely different one. There's a new one. There's a new one. I said, what am I looking at? Yes. This is for the other channel. I am looking at the correct ones. I'm just not got my eyeballs in probably. So we want the 4302. 4302. So this is the correct one. Now let's just check what the base emitter collector is. Just in case. Just in case. Now these are not going to fit in. I'm going to have to drill through these to make these a bit bigger with something. I've got a poegy thing that I might just bring the drill in. Right, that's the PMP. Is that correct? Yes it is. And we've got again base collector emitter this time. It's a number one. It's the base and then we've got the collector and the emitter. You're checking. Hentai. You're going upstairs, mister. Are you going to put the bin out and is it the blue bin tomorrow as well? Yes, for the first part. And I don't know, I'll have to look. I'll have to look on the piece of paper. I'll put them in while I'm making a video at the moment. But I'll do it later if it's those bins tomorrow. If it's what's already there. The blue bin's already there so I'll just turn it. That's okay. I don't remember if it's as in the blue tomorrow. It's here anyway but I was just asking a question. All right, okay. For the other one if it is, I'll bring it round. No that's all right. I've got no idea what to say. People don't need to know. Right. What were we doing now? What were we doing? We've placed collector and emitter on this one, are we? Base collector and emitter, yes. Base collector and emitter. All right. I should write that down if I want to. Base collector and emitter. So this wants to be like this. It's got to be pretty much close to the end because all this stuff works. Now let's have a little look. The base is going to be coming out down this way. The collector is going to be going this way because the collector wants to join on to the emitter of this. So this is where we're going to make sure we get everything right. All right. And then they are going to join to the underside of here. So where that is here, this bottom part here, I've got to get this to connect to it. I've got to get the emitter part of this base collector emitter. All right to connect there because this was base collector. No, it wasn't. This was... Yeah, yeah, yeah, yeah. Doesn't matter. Ah, there we go. I'm looking at the wrong one. I'm looking at the wrong one. So let's have a look. So this is where we are now. But this is going to be going on to the bottom side of here still. The same way as it is going to be on here. So this is going to come down to this base collector emitter, right? So the emitter then wants to go this side. But we can't turn this around this time because the heatsink is going to be coming across the back here. And the closest we can have that in. Because this is all right. I mean, I know this looks like it might be a problem, but it's not going to be a problem because even though this is going to be here, we can have this sort of here, but just wired around. As long as it's on the right side of it, as long as it's on this side of the rail, it doesn't make any difference. So we can have it here, but on this side of the rail. So base collector emitter, right? And here's our emitter here. So yeah, that does want to be coming off here and then coming down here. The collector side wants to be coming to this side of this resistor. And the base wants to be coming down to the emitter on here. Sorry, to the collector on this side. So there's the collector part there. So the base wants to come down on here. So we need to make a track down here. There'll be heavier, obviously, because they're going to be wanting some juice. But the nice thing about it is they'll be taking their juice directly from here. They'll be from this part of the rail here, the same as on here. They'll be getting it from here. And negative. So they'll be taking it from there. Positive onion. Yeah, because it didn't matter how I did this last time. To be honest with you, it can be so close together as well. All right, so let's do this then. Base collector emitter. Now, what I thought about was I thought about putting them in these. One, so it's easier to swap them out. Two, so it's easy to actually do this like this. So should I ocean tide? That is the question. I'm going to ask myself here now. Is this the way to do it? Or is this not the way to do it? Base collector emitter. Yeah, because now I can just bend them up and put them on the heat shrink. They pop. They're easy to take out and swap out. I don't want to try it on the power test and that with other transistors like this, but not these ones. It can fath around and turn into an experimental board. That could be the way to go. So, let's keep an eye on this then. So we've got our base collector emitter. So the first one is our base and that one wants to come down. The first one is the base. And that one wants to come down to the collector at this side between here and here. So this base wants to come down to this junction on here. So it's basically here. So that, this one to here. What I think I'm going to do is I'm going to use... No, I'm just going to solder it like that. I think that's going to be easier in the long run. I might just get a couple of resistors so I can just nab all the leads off them. I'm just going to use some carbon resistors that I'm probably not going to use for anything anyway. But they've got thicker leads on them. That just makes life a little bit easier at the get-go. I've got quite a few of them so it doesn't really matter. I'm just donating them. Base, torture, here we go on to the right place. Bees, it's going to go to the place. Something like this. I'm just trying to keep it sort of neatish. I did use that a little tiny. A little tiny clamp I'd use for doing this. Keep it on, but it'll get by without it. It'll get by without it. That was just a little tiny bit of hungering. Just make sure we're going in the right place there. That's the other side of the resistor. This is the good side of where we want to be. Goodie, goodie. I'll just take it down here. This is actually going to be heavyed up. Just for the minute. I'll get it tucked in place in a few places so it doesn't come apart. That's just that for now. That's pushed in. I may have been doing the right thing putting them on here like this, but we'll see. What's the worst thing that can happen? Right, so there's our base. Now we've got the collector. The collector will just remind us. That's a good idea. My collector is coming down to our emitter side here, and then coming down to the bottom half of this. It's a base collector. That wants to come down here because our emitter has done this right. Is there? That's coming down to that already. All we're going to do then is just bring this down to here. We'll get it right onto that. It really wants to be on the emitter side first. We'll get it here and it'll be fine. Again, we're going to use... I'm just getting this sticky off when they've been in the paper. This time we're going to give up a little bit fancier experts. We want this to be here. Let's just pin this on here. I want it to get as close to the emitter as I possibly can. Nicely done there. Darn it. Never mind. Never mind. Now we want to go across here. So how are we going to do this? I want to try and do this so we're not taking up too much space anywhere. Because we still need some real estate on here for the other components. Remember we've got those? Capacitors need to go on here. Let's put that back there. Lovely, chubbly. Here's my solder. Let's just get it a little tiny. By the time I've finished the LEDs, they'll all look like this. Nice and plenty of conductive. I mean maybe I should be using copper or something, but to be honest with you, it's not really made much difference on the last build of this. I'm just doing it the same way. I was actually going to get one so I could keep a check on what I was doing for space and stuff, but I did the first one without having that privilege. I just have to do the second one. Can't have three hands. I'd be quite good to have three hands now. But I've not got them. There we go. Let's get this one up. See if I've got to use the wire from here. I wouldn't be able to make this thicker. Right, base collector emitter. Now, the emitter is going out to where? The emitter is going out to the rail. So that can come up and around. Up and around too far off. What we don't want it to do, of course, is... No, that's fine. Look at that. Not beautiful. Ish. I might have to nip the ends of that because I'm going to be running the leads down here. Just for now, base collector emitter. The emitter is definitely going to the rail. It definitely is. All this, especially on this emitter, this will have to be super thick. Well, not super thick, but thicker than the others so much. Let's just leave that like that for now. I'll just nip off the end of this because that won't be needed. That won't be needed because I'll be running that wire down there. OK, and this will get leveled out. I'll nip this off anyway because that doesn't need to be there. Try and take anything with spikes away. If there's any of those, it could be used as an antenna for picking up interference. When we do anything like that, these are not quite in the same one, are they? So we'll have to do something about that. To keep things pretty. So just make sure there's a little tiny gap. There'll have to be massive gap. We just want a little tiny gap between those. There you go. Beautiful. Right, so. Now, let's have a look for the bypass capacitors. And let's just stick our knees up slightly while we're at it. Oh, I didn't put on the extractor. I'm so naughty. I mean, I've got one there, but I might have to make it a bit smaller. It's a bit big, it's a bit noisy. It does amazing when it's that big and noisy. And across nice. Seeing the sort of thickness of track we want. A bit thicker up here. When it's cooled off a bit. Look at that. It doesn't matter just not so good for neatness and running it off these ends. Let it all cool down a bit first before we start adjusting it any more. Right, now let's just make sure we can get in our bypass. Remember, it's just got to go to the rail. I mean, it doesn't really matter if it's after this, but it'd be nice if it is. I wouldn't do it like that before. I just did it on this side because they're going to be so close, basically attached to it. On the emitter side of this. It's just 100 microfarad and 100 nanofarad to get that. One of these and one of these. So on the 100 mic we want the positive. The positive to be going to the positive. Doesn't seem right, does it? We're going to do that by going here. So we do it down there. Actually just avoid these. Now the positive is going to be going to that output there. So that will go up here. And a negative is just going to be going to ground. So this is where I'll be putting the hole. Somewhere in here so that I make sure I leave enough room to drill a hole. There's my finger. I'll just put some through where my finger is. That's where my finger is. So that's probably where the hole is going to go. So yeah, in here is where I'm going to do the hole. So I can have a cable coming out of the ground that you see on here. You see one here, one here, one here and one here. They will all be being brought together. So you'll have a cable coming from here, a cable coming from here, a cable coming from here, a cable coming from here and they'll all come together to one as a star ground to make sure that we're not introducing anything else into it. It's just going to be direct rounds coming out. And then just bridging this. We're going to be using our 100 nanofarads, a wee ma here. I wonder if I should just make that a bit closer because this is all, it looks quite close, close fit, doesn't it? So I wonder if really I should take that out of there because I can bridge across the top of here and our negative is really going to the ground here and our positive is going to. So if I come out on the other side of here, let's say, it doesn't matter where it is, if I come out here, that gets me really right onto and then this is going to be going to ground. Right, so if I just get one up here and I thought I could drill, I'll go one closer and now I keep that away from it and I can drill here. I'll just drill here then, fair enough. And then this of course is going to bridge that as well. So this is going to go across here. Now I could put it on the bottom but I'm not going to what we're going to do. So we're just going to make that like that. Make that like that so we've got a good old span and go through here and go through here as close as we can, like that. Of course there's only one problem with doing it like that so I don't quite have enough room to put up there. Is that enough room now? I don't want it sat right on top but they're on top of the transistor even though they don't get terribly hot. So yes, so this is negative so it is going to ground wherever I drill that through and this is going to be here. So if I can just get that just to sit down a bit meter like that, perfect. And then all I've got to do is get this to go through close as I can there and probably about there. Then I can try and drill in the middle of those two. Perfect. I've got that for now. Is there going to be touching there? And I need to drill a hole in here just to make sure I can fit in my cables. These are not going to get warm really so it doesn't matter if they're rare. Touching. So there's the one side and there's where the transistor is going to be. There's the one side. Now, yes, this is after the transistor and it looks like these should be before the transistor on the coupling, on the air. On the air. I don't know what it's called. It's gone flat. But it will be fine. It will be fine. It's how we've done it on the other one and the other one doesn't have a problem at all. It will be fine. And if it makes a difference it's going to be so marginal and that one's really going to know. Let me just, because that will just annoy me because it's about at that angle and if I just do that to the air like this can we get it at that angle instead? Let me see if I can go there. I can go there so I'm going to just tap these in and just whip off down together before I drill that hole. Do all the grounds afterwards. Okay, okay. We're looking good. We are looking good. Just push that down. All right, so for another one of those close-ups so far what we got. By the time we've got a bit of bend on those transistors that'll be just right for the heatsink to sit on the end of here just so it holds its weight through here is where I'll just put a few holes just so I can put stand-offs there so that always stays off the ground. Off the floor, not the ground there. Right, let's do the next one. Okay, so again let's sort of try to think about keeping it a bit symmetrical just because it just looks nice like that. I'll just work everything to it like that. Is that right? Sorry if I just whacked the mic then right, let's dig in the next one forward, shall we? Yep, it's got to be the same thing otherwise it's going to be wrong going on the heatsink. Okey-dokey, right. Now we want that driver there. Again, we're going to use this bit of real estate for the same thing on this side but we've got a little bit more going on over here actually we've got an extra 100 nano so we've got our 100 mic there we've got 100 nano then we've got another 100 nano going to the 10 ohm half-watt resistor which is from our output again. Right, so we don't want to get that wrong there. Alright, let's have a look at that again so once again we're talking base collector emitter Just check, honestly it's best to check now I'd prefer to check 100 times and cut these bits out or I'd prefer to check 100 times and emphasise how important it is to check. I've made mistakes before and I realise that it takes a lot longer to rectify those mistakes and it does just keep checking in the first place. So, base collector emitter Good, as we thought Suspected. So, now let's just check out see where our base is going so our base is coming down to this junction point here so we're going to have that come straight down here. Alright, so we'll do that one first because that's where it joins our base joins the 220 there between the collector, the puff and the resistor, yeah? The collector off here, the puff and resistor here and there, so we can put that straight in knowing that we're going to get this right going straight down there Perfect, so I've got some things here Neatness. So we've got our base I'm just going to join that there now I mean, the base doesn't really need that much solder on it to be honest with you but it's doing the small part of work but if it's still base collector emitter so let's just not take your eyes off the ball here our base has gone down a remitter, base collector emitter, nice one our emitter's just got to come out here to the rail nice and easy, easy peasy I'll use this thicker wire anyway just because I need it it's very hard to see these much easier like this so I don't need all of it having this crap on stuff when they're off the tape stuff the ammo tape stuff when you're doing your socket board prototyping so your socket boards can get messed up but it's sticky sticking inside them when you're putting these things in and out our base collector now our collector is going to the emitter and is going to the bottom of the resistor here so I think that's going to come around down our collector here and our base collector emitter the emitter is going to just join here which is then also connecting to here so we can go and join it directly there you see there what I mean is this is our base collector emitter so we're going to bring this out rather than going across anything we're going to bring this out around and then down and connect here at the bottom of this because if you look here there's the bottom of this resistor the top end is these so this is the bottom of the resistor and this is where our collector needs to come out and connect the emitter here so we can just basically join that there base collector let me just double check base collector so that just saves any mess in the belt and more than we're going to do it anyway now you know if you think well then I'll just join these up with groups of solder but yeah that's fair enough you can say that and if you're more patient than me that's a good way to go but what I found is that a lot of the time when you're doing it without a piece of wire in there you end up with the gaps and then you've got to keep trying to bridge the gap keep trying to bridge the gap if you get that there that's doing it for you anyway so it just takes out some of that some of the pain of it so that is where that is straight onto the base of that resistor and I think that's how we're going to go like that yep so it can be nice and clean up and around them perfect and as long as you don't get it well solded there's going to be enough that you don't get really resistance there apart from what's going to be there anyway it's a piece may need a whole new yep may need a new another one what I got there earlier it's quite clean on the ends as well most of it will burn into the solder well let's just pull this off this end there's those twisted and because of the length of this we might be able to get this just fitting right if we're in tight enough just fitting right if we're in tight enough so we get that to go into there there it is which procedure is that right behind me but I don't know which one I'm getting quite excited now it's getting there I'm going to have to break this into two videos it's got to be a couple of hours now this soldering I think that's a bit of a mess but that's what it takes it takes a bit of patience and you don't want to just set yourself an hour or two good few hours if you're doing it at least then you don't have to rush it I think there's any real reason to rush it down to us there we're at the wrong part who's a silly sausage who's a silly sausage honestly honestly what am I doing what am I doing why isn't there anybody telling me I'm going on the wrong one I can imagine some of you is watching it shouting you're doing it on the wrong one you're why let me just there clean that just to make sure that we don't have any problems with that a little bit there it's just there no it should be alright it's not touching there I'll do a check on it anyway cut it if I have to where that going go on an income pooper there we go I think it's worth putting the mistakes and as well I think it's worth cutting the mistakes out because you know you're better off seeing that even with the confidence of building it in the first place mistakes are still made it's just good to recognise when it happens to do something about it oh I just got a shock from the end let's do it there let's do the electrical one immune system if I can just bend that down a little bit I'll leave that just overlapping there I don't see why shouldn't if I can just get that to bend into that there there you go double check here there we go tack it here then I'll just do a quick conductivity check just to make sure that's not cos it's the base collector emitter right base collector emitter yes yes yes the collector's going out that the collector's going out to the base of that which is correct because that is the base of the bottom part of the resistor right now we're just going to do our little three capacitor combination I think there now let's just get that quick little I don't know if you can tell my bryment man when it comes to these things I like them so let's just check this one here make sure there's no connection here and there isn't because you've got a nice space between there and there and there's a space between there itself electrical fact I think that one works better for doing that than the than the than this one maybe some of you got experience with it you can let me know okay let's let's get those capacitors in let's get this is still going to be thickened up okay the source is still going to be thickened up and I still have to run the cables down here but that's not such a big thing right there we go we want these three here and we also want this these are the last of our components these four components left sorry about that four components left and that is the 10 come here the 10m resistor this 100nF there and 100nF there and then we've got bridging 100nF so we've got that 10 100 micro card so now this is basically our output connected to that so because our output is going to come out of here and we need to connect one of these to it so let's just let's just look at this for a second and see how we're going to do that but we know that we need to have this here alright so we also know we need it to connect to the end one of these and we need that to connect to the end of the other one dum and then round the back of it we can have that so we're going to do this on a bit of a thing in here so we can keep this capacitor in here as well alright so and we also need a hole for our ground so let's say if we go from here to here let's do a little check on that it can't be anywhere where the heat sink is going to come into contact with the heat sink it could do it because it's a half watt of a little bit of space so it can breathe so I'll just stick that down there for now now yep that could work because it just means that from there now we're here we're going to go to this 100 nanofarad and that can now bridge that table we can see underneath so I'll just pull those off and we'll go from just give us a bit more space I think we're going to go from there to there with one of the 100 nanofarads because I'm on either side of here these two are connected here now we need to connect another 100 nanofarad to here which is basically then going to be anti-negative 35 volts so that let's put it so we can see it that can go from there to there beautifully and then we need this which is going to come round to the other side of this 100 nanofarad it doesn't have to go around the other side of this one it needs to go around the other side of here so let's just see where we've got that connection here and is there space we just have to chuck that in and there is it seems and then we're coming down to there with the positive side towards 100 nanofarad negative side towards this negative here strike is that it towards our negative so we're going to just pop that in I suppose it's as good as places any round about there I think right there so yeah so we're going to connect from there so as long as those two are connected together there which they will be because we can just bring this down to there and bring that down put that leaf there I think put that down to there so those two are connected where they want to be and then this one and this one is there's our those two what's this that's the that capacitor which is supposed to be connected here so we've got one capacitor there we've got that capacitor there and that capacitor there so that's sitting between those two capacitors but it still wants to be connected there yes yes so it's sitting between the two capacitors now this is where we might have a bit of a problem what's that there that's that one so that wants to be there that one's the other one right yes that's all good so all these three are on the same place here so if I just pull that down push that down and pull that down there and these two are going to be connected together there right let me just show you what's going on there now it looks a bit messy and a bit complicated in fact if I slip everything away and show you my back so I'll just get rid of that because we need to think and this look we're all going together here so I just take that off there take that off there and get rid of that and if I push this down push that down like that try and keep it looking neat if I can and then we've just got these two to connect here so let me stay like that that can go like that let me just nip those off and I'll show you what I've done we've created it afterwards if I've made that too short okay so so what we've got then is we've got this capacitor he's joined he's joined in the middle of these two and that's here so we've basically got them two connected there the two smaller ones the two hundred nanos and then our electrolytic connected to them there so that's joined in the middle that's what we want that and on the other side we've got this side of the hundred nano connected to this this side of the this side of the hundred nano connected to this half watt just want to give it a bit of space I don't want it to be too connected to these because these get warm and there's half watt and we don't want it to get too warm there and then that is connected to the other side there of this capacitor so that is all correct like that so what we're going to do now is just tack those down and of course that capacitor comes off to the negative side to the negative round with this lead here I hope you can see that it probably looks a bit confusing but well it's not too bad really get that back in here these things really do help especially if they're a bit tighter that's got some pressure I won't come out again okay just in case you find the long there so yes where it's connected there we've got the one end connected in between the two basically just moving this trace down here this track down here and those two connect together in the one end coming out to that 10 ohm easy peasy easy peasy but look at this look I mean this is just about done just about done oh my god do we do the test today or the test tomorrow the test later on get this video edited and put up it's a couple of hours long so I might just put it into another two pieces I didn't say it would take two or three pieces it's not a quick job really this not really, not when you want to check and double check and hopefully that will pay off when we come to connecting it up there's a whole routine there's a whole protocol to connecting up as well to powering up for the first time so it's not as though we just bang it on now we've got a few things to set up these two like this let me just double check again that's how I'm going to be giving that a bit of space I've got a bit of space there you see for that push these down pretty flat for the thickness getting quite excited now excited at the start up and then put all the trouble on the computer oh I've still got to sort that out as well ok and then like I said I want this up a little bit here because I just want it to stay away from these I do expect these two other resistors to get warm what I'm going to do is I'm just going to bend that and leave this bit of lead on here like that just for now see there's a method in that matter just later on in the game and then just solder these electrically connecting wise when they're up there we've just got to run our power leads down put our grounds in thicken up some of these when they need to go but what I'll do is I'll do that off camera or I can get that ready but I think on the power up we might put the grounds in then because I feel like I could do another little rest it's only just to make sure I keep concentration I don't I don't don't mess anything up so I'm just doing it for neatness so there we go I mean that's that is basically what we've got here now it takes a bit of time to get there but it's well worth it look around the other side like I said darling each side here we're going to run the positive and negative down here we'll be taking the ground during the zero point from where I said I'll drill through or just use a tool to but I'll probably just drill it because it's going to be easy I've got some little tiny drill bits and I've got a I did it the last time I did it if I showed you but with a hand drill the old type hand drills and I didn't even have one of these one of these holders and so I'm trying to do it when I wind up drill yeah that was fun but this is a bit different though I've got a and we can do it like that so that's it guys that's as far as we get to this bit on here okay I was going to show you once there in any way but I'll do that on the power-up video because there's going to be a power-up video and that's when we can go from the power-up just going through powering it up and because it's not straightforward you can't just chuck a power onto this now and expect it to work correctly make sure this this it's set up correctly for our bias and for our quiescent current because if that comes on full blast we're in trouble if it comes on too high we're in trouble and we'll just pop out the transistors and make sure we get that set up properly yeah it'd be easy enough to put transistors in and screw them down and put the heat shrink on and just clamp it for now this time round I may even drill it and drill them in rather than just clamping them with big old clamps but yep so right look this is I'm going to think this is going to be part 3 I'm not sure let's see how it goes on and see what I can cut out but I don't want to leave anything out really apart from where I've disappeared off downstairs towards the neighbours or come to the toilet and such I'll cut those bits out of course but I don't want it to be too long but yeah so I'm hoping you get a look at this because it was asked for a bit close up it's not that easy to do it with the camera itself just because the camera itself is it's got several different lenses on the back and it just shifts off wherever out here if I zoom in again it'll be over here then it'll be zooming in on not on here and that's a pain when you're working down here like this but still it's a good little camera so there you go that's what it looks like that's what it looks like set up pretty much ready to go from what we've spoken about already right if you got this far, fair play to you thank you so much for sticking with it and well I'll see you in the power-up video