 hello everyone okay so in this video we're going to put this together in a configuration where it becomes a 5.8 gigahertz signal tracker so it's going to be an RSSI tracker now there is one online showing this and it's a FR632 those you can still get online these are discontinued the quantum's but I'm going to show you how to do it in this because it's basically the same thing the differences on the inside layout is slightly different on here but you're still going to be using the same pin on the FR632 which is going to be falling from the left there from the right side and that's what you use on both as the RSSI output pins now I've already built this into this once and I came across a problem now the problem was after I've been using it for a little while the micro itself which was sat in here let me just get those out of there which was sat in here it died now I don't know whether I've been messing around with the parameter slightly there is some parameters you've got to adjust so I wouldn't have thought that that would do it but what I thought was because these two here are for the servos now this is really going to be using the code is only set up for the pan all right but that's not too too bad a problem because you know depending on the antenna that you use depending on the sort of beam area you're going to have you just adjust and you fly accordingly but what happened was on here you see what we got here is because we got our 12 volts coming in but this runs on five volts instead of our servos we need a voltage regulator we need a drop down voltage from 12 to five volts and that's what this does now this is also what this where I think the problem is is that this is connected out to the servos and it is also connected down to this so anything that may happen with the servo let's just say that it goes on one you know I've been playing around with the software or this could possibly be another issue if the signal strength is too close to the receiver I'm wondering but it's a servo it's a motor as such and this I believe could maybe I don't know 100% maybe have some kickback come in here and it's just spiking this so I've decided that what I'm going to do this time round is this is my high voltage coming in meaning from the battery pack 3s 12 volt coming in rather than have this deal because this will only do maximum with ventilation 800 mA now imagine the servo it's gone into a bit of a jitter and it's pulling a bit of current maybe it is maybe it isn't you know the weight of the antenna could be making it work a bit harder and maybe that's cause that's what I'm going to do is I'm going to disconnect this I'm going to leave this here two choices I'm going to put another one of these in next to this I'll insulate this by putting some double sided sticky tape on the back I did the same to that makes it a bit gnarly on the back but it just meant I could stick it in place this one is that as well you know it's a little bit moving on here because this does get warm now I was thinking so well maybe it was just you know just overloading it so what I'm going to do like I say is I'm going to put two of these in so I'm going to have both the servo connectors even though one's only working but this is just for future proofing that's just pretend that then if there is an issue on the server then it will only affect this one part the power supply and will not travel down these leads at all to release you know an area of least resistance and possibly be what popped this out I don't know but that's what happened and this is how I'm going to try and relieve it from happening again and we'll just have to just have to see what happened now the rule to look at here you can see there's one receiver side here canned up nicely so it prevents noise going in and another one exactly the same here and as in the fr632 you just count in when you're looking at this can at this side this aluminium shield and you count in four one two three four and there you go that's the rss high pin yeah just counting four and because it's the same it's exactly the same on the other side that's what you're going to do for when you're connecting this part pin four pin four and then you have two two wires coming off like I've got here already I'm going to go away now and just tidy this up and put another power supply bit in ah do you know we're going to do it at the end of the day I just cut the bits out then I okay safety first I'm going to put me like down here so we can see this and all we're going to do is just touch a little tiny bit onto these just to soften that up just while it's on there so I can easily come in and just pull it off pull it off right now I remember if I remember correctly I should say that this works there's nothing like this just clean those two pads off in case there's any bits of wire now what we're going to do is just take that off there take them off there okay I'm going to jump from here and here onto another power supply just there 800 millio when when mine went I was outside going from my back room to outside yeah so we've got our voltage and voltage out like so I'm going to find a bit of double-sided sticky tape if I can if I can't I'm just going to put a bit of tape over that and I will uh because we just want to make sure that that's insulated these test points because they will be conductive and we don't want anything to show up between them or uh you know just sit over and show us anything on the back of our board I don't think there is anything particularly on the back found a bit of tape that'll do doesn't have to be anything particularly that special and as this is electrical tape by right I wouldn't have thought that this sticky on my back is conductive I could have made that a bit meater couldn't I but no more as long as it just does that job there we go it's going to insulate between there and there symbols of the house and I could put that there but I think just because that is quite happy to sit in that generalized area that pulls down through there this can do we're just going to leave that sat there and we're just going to just jump a couple of little wires don't need a lot there yeah a couple of bits of wire I do like the silicon stuff because it's so easy to run just pour the ends off tin the ends of these just want a little bit of flux in there really there we go I'm still going to nip them down a bit too big and oh that's we've got a right of blob on the end to have that off now give us still tin again a bit big get these about half the size all right now where's our it's run away there we go so we want the here let's just put a little tiny bit of bibbibbs on these as we do on the other side as well we're at it now I've seen that there's been quite a few people struggling to find the function code timer h and so I've located it I'm sure that and if you're going to buy a diversity receiver consider this consider the sensitivity now I believe on the fr632 the sensitivity is minus 92 dBm and that's pretty good that is pretty good and it's you know another 3 dBm and that'd be quite a big boost on this one on the quantum they see it's better than minus 96 dBm and the higher the night minus number the better so this is the reason why I bought this particular one when I could a little while ago and then I've like I said I've already done this before but I've not really done a lot with this because my receiver is my my in my receiver I've got a I got a Hawkeye and I absolutely love that no doubt about it I do you're probably going to wonder why am I playing around with these wires I'm just trying to see if there is another way I'm just trying to get them there a bit meter I just can't bother fuffing now so this is going to be it and it I think is 94 and I and I that is a great receiver that is a great receiver I do like the Hawkeye a little bit awkward though I think that's just down to me um I think that's down to me not having there you go that's not too bad all right so that's how that's basically going to go and as soon as I found the double-sided sticky tape I'm going to stick that in like that so we know as well that that's antenna one antenna two because it's got them said here so if you ever wondered which one was antenna one it's facing you this is antenna two you got two outputs for your video so you could put one channel on one frequency and one on another and have two outputs let's see if you are up flying with a friend and you're both on different frequencies but you're at one receiver between you have two monitors you can out to the monitor out from the monitor two different frequencies two different antennas and it's kind of quite a good little huge few few features on here like a spectrum analysis but we're not going to go with that there's other videos out there that can show you that in the secret menu and which isn't such a secret it actually says it in the manual so yeah what we're going to do now is we're going to just tell you this if we can by cutting down maybe a little bit on the air and a little bit on the air as we don't need them so long now cut that ground down to just before there I think okay there's one up there that there that'll do remember don't keep your soldering on on these boards near these components for too long at all because they don't like it they don't like them so down on there nicely there all right so so again I reckon I might just because he's got his own little bit of tackiness just down here I can I might just stick some more lap down on there that's the old knackered one so let's just push this back up here where this has got to go because these are basically got to fit in to wherever this will allow it to go and we want to make sure that we can get this out of the bottom of this for when we have to do any work with it so that is I think that's probably about where it's supposed to be we need to take a peek at our Arduino board because this is how it's going to go no put this in like this like I say that's going to be sat down there down the edge there we're going to use this one to power this so on this side where's my power here we go ground and VCC so we're going to take a little thin wire down here right so let's take a look at one of these Arduino's what we want is analog zero and analog one we also want VCC ground and then we're going to need our outputs to control the servers and we're going to be using servos five and six we don't have to adjust anything else here the code's going to do that the input's going to be a zero and a one for the rssi signals which way is it around well we're going to do some experimenting just to make sure we do get those things right around and we're going to say that antenna one is zero and antenna two is one yeah and and then our outputs are going to be according on there as well so five I'm going to presume is going to be the lowest number so that's going to be the the pan yep we're going to be using pan and tilt but we're not going to code for the tilt yet so we're just going to be hooking on to the five by right but we'll find that out we'll play with that and just make sure that that is correct we'll do the planes yeah you don't have to all right so that's the next part okay guys so this is the uh this is the Arduino software you want to get or what version is there uh the latest version if you're using Windows Windows 7 or newer click on that download the software do the install you know the procedures there and we're going to also want to go to github.com and raviya simple rssi track it it's there or we'll just type into google this and the results will bring it to the same place and you'll come on here and you'll go to where it says code because this is the actual code for the for the thing to work and then just download the zip folder okay once you've downloaded the zip folder extract it and then go into uh copy the the folder and go into your my documents until Arduino folder and just pop it in there all right once you've got that in there you could then go inside that folder and just click on the rssi tracker Arduino file you can see it Arduino file because it'll like it'll uh the icon be like an Arduino icon you can click on that and it'll open up in the folder and so let's just see you've clicked on that and it's opened up in the folder i'm going to just open up my uh Arduino now so you've got that open and you can now see that you've got that particular timer piece software in there sorry the um simple rssi tracker got time on the mind and now while you're there you're also going to need a bit of software that um people have obviously seen on some comments had trouble finding but if you look down to the bottom of the page you'll see that the timer h Arduino library is here so you can just click on there and again just download the code code is a zip file but this time when you download it says zip file don't open it up just leave it as a zip file go into your Arduino go into sketch and include a library just move across it oh include a library move across it and go to add zip library i don't know what that is when it does that i hope this thing's still recording and so we're going to want the downloads and there's the timer master because we want to add that and that's that so that particular folder now will be in there and inside there even loads says time master when you open it up you'll see inside there i'll show you actually let's see if we got one open uh you'll see one in the timer master folder if you open your project go back so you can see again time master folder which will be inside here don't worry that that's got time master there again it's just because of them there's a couple of times now um and you can open that up and you'll see timer h in there and that's why then you'll be able to compile verify and compile the upload the sketch onto your Arduino and once you've got it there because it's all set out already that's it it just works which makes that very very simple right right so we'll move on to the next part because that's it that is it that is that is it finding the software you are going to not need to change very much around but you are going to need to just tweak it slightly with this offsets and we'll go over that part in a moment