 Right, so here you see a Product map. Yeah, so these are our main products we offer and those are you know the the top two lines show the symmetrical horns or a symmetrical radiation pattern than tennis and The gain is increasing from left to right. Yes, so you have like seven different gains and being with of the symmetrical horns and Then there's ultra horn and bunch of relationships Right, so and then we have also antennas with asymmetrical radiation pattern in the third line and on the bottom line are Twists for the doctors and those are actually something I want to I want to talk about first because Just to clarify how how the radios connect to our antennas Yeah, because it's not a standard thing that an antenna has a weight guy So twist for it's our proprietary weight guy connector And that has two essential advantages compared to the to the pigtails. So first of them is a Extremely easy installation now. You can really install the radio as you can see you just insert twist done. It's very fast Very robust and mechanically. It's extremely robust. There is no We still didn't figure out or still didn't get any report that have what the amount of the of the Connecting disconnect cycles for it to fail, right? It's that robust It just lasts I mean the horns are on the market since 2014 and since then we did not hear about the twist for breaking So it's extremely robust mechanism and the second that biggest advantage Is it's low loss as compared to their cruxio cables. It's lost. It's 10 times smaller. Yeah, and Meaning that it's virtually zero If something is so small you can't even measure it because we can we can't we tried But the loss is so small that is negligible yeah, and The way this works, yeah, so that's the traditional radio you used to we took that radio and You know in integrate the transition from the radio to the antenna directly into the PCB And that really enables that's what really enables that that little loss to actually really be in place. So that really makes We sport or we sport it really like very a Very good connector for for the radios in this industry because the cables can often Introduce loss as high as even three decibels. Yeah, which is half of the power. Yeah, you would you just wasted the cable So that was the best solution. Yeah, when the transition was directly Interrated in the radio PCB, but of course We don't sell our radio yet. So we have to we have to support the brands that are out there And for that for these radios, we have to export adapters And the twist for the doctor it basically changes the coaxial output of the radio into twist for the male It's a simple step. Yeah, so on that you see what's inside a typical twist for the doctor You might be like wait, but did you say there are a class in cables, right? Well, yes I did but in the in the adopters there are kids and those are semi-rigid coaxial cables and Semi-rigid means that you know you bend them and they keep their shape Yeah, you can bend them a few times before their break they break But anyway, they're there and since we control the manufacturing process and quality assurance of these adapters Then we of course want to deliver the best possible performance Well, we ensure that the cables that are there that are really have a minimum noise I mean minimum minimum loss and because they're very short as well and On top of that because those cables are enclosed in the plastic body Yeah, the users don't need to handle them at all You know, you don't need to screw the connector in you don't need to handle the cable at all, right? So you virtually do not come into contact with those cables at all in normal use case, right? So which really extends the life-side of this adapter to pretty much infinity Because of some mechanical issue or whatever but nevertheless, you know, it's using twist for the doctor is very simple You just stuck the radio in Like each radio has separate separate adapters so you can click it in, you know Until you hear a click and then all it takes to install the radio is you know, as you see in the in the animation is very It's very simply just insert twist and to disconnect the radio You just turn the outer ring on the antenna and reverse the movement. That's it It's very very easy and simple and We have three types of between sport adapters So first of them is like this. Yeah, it's that's for for ubiquity Prison radio, so you just Push it in click and radio disconnect. Yeah, the second type of the adapter We have is for for the for the wave cut radios. Yeah, there are a few that have waveguide and we have to go ready So, you know, you just you know, you just put on the cheap plastic and metal parts and your radio is installed And the adapter is installed, right? So that's so though is that example and for the micro thing radios, which are open just bare-bone PCB And we have this type of adapter where you insert PCB directly into the adapter and connect the the pigtails Of course connect the TCP cable And then put the enclosure on so that it's protected. Yeah So those are the three types of the adapters we have and it's It's an important point to emphasize that actually every twist for the doctor works with every food sport antenna We have so it doesn't matter, you know, you can use the twist for the doctor with any antenna we offer So any twist for the doctor can be plugged in any of these intense and These are the adapters we offer for the manger Grants in the industry. And so this way the liquidy can be a micro tick and both So we'll have a short look at those so the candy networks is not so interesting for Any ways here as far as I understood so we don't need to talk about that, but just know that we have adapters for those radios to And then we have four adapters. Yes, or the TPA path the top left corner one Connects to five different radios. Yes, so both generations of rocket Let's So the first the doctor works with the both generation the rocket prison Yeah, the fight AC and the gen two then that the same adapter works with the air fiber five eggs and five six HD and actually also within US LTU rocket and so It's actually pretty cool. We can because we can still, you know Let you use one adapter with five different devices. Yeah, so you don't need to buy separate separate adapter for each of those and Then we have also TPA arm five in the right upper corner, which works with the rocket and five It's one of the older radios, but of course, it's still widely used. So yeah, we have adapted for that And then you could we also has a bunch of Bunch of wake-up radios. You have the prison station and the ISO station and for that We also have a have an adapter and actually we also have an adapter for the rocket five AC light as well So for mimoza, we also have three adapters, but again, I hear it not so popular here So I'll just conclude again that we have a doctor for the C5C C5X and the A5X as well And for the micro-dig radios, we have two adapters So the top one the TPA RBC is the one you saw in that animation before it's a full Aluminum enclosure and so it not only it protects the radio from the outer elements But also from the from the interference to the grid The Then the TPA RBP is a it's a similar thing except it's made of plastic Plastic material and all of these support actually the boards you see this so then to the nine nine series and m11 series and seven and four So all of those are are fitting in that adapter and actually for The radios that we don't have an adapter for we have the TPA SMA And which is a simple SMA adapter, you know, you plug it in the antenna and then you have to Two pigtail outputs you can connect And it's a lot to remember all this information. It's just like it's too much Of course, so on our web page you can actually download this which is the the twistboard compatibility issue It's in our download section on our rdevelopments.com if you slide all the way down to the bottom footer of the page you'll see you'll see a download section And you can download this this compatibility in a as a pdf for your reference Cool. So going to the horror technology. We've already seen this animation again. I'll just repeat that okay the the patch erase they Regulate everywhere. We don't want that Instead the horns on the left. You see they really just cover the The area you point them at sort of like a flesh like yeah, if you think about it some more real-life example, you know, like when you point a flesh like it on the You know, you create this put like on the ground and that's that's similar way how horns work Inefficiency we've gone through that so I will not I will not Talk about that again Again same thing in a comparison and so Only that's a symmetric example of a symmetrical horn with 94 percent of that The typical patch area cannot do which has 31 percent of the energy going to the side of and receiving and transmitting bonds so This is the list of the symmetrical and asymmetrical horns we have you see there the efficiencies are On the scale from 90 to 99 percent You show me an antenna with better efficiencies than I'd be curious to see but I dare to say that Our efficiencies are the highest on market and As you see we have seven different symmetrical horns and so from 90 degree Be with 9.6 dpi gain all the way to 30 degrees 18.4 So and of course with Increasing gain from left to right and decreasing being less because that's how that's how That's working Then on the bottom we have the asymmetrical horns. So there the radiation pattern is asymmetrical and we'll talk about that So with the horns The colocation is just It's easy as that right. I mean with the patches Not so easy and do it but it's very unstable Not to manage but with the horns no problem at all And here again, uh, bunch of bunch of examples from our customers and how definitely you can co-locate for us It's like really cool picture anyone on the left was like a very Very neat installation We can see stability. We talked about that too already. We'll skip that Again, the patch erase instability. We already talked about as well the gain The stability of horns. We also mentioned that before and I'll just stop at this slide for a moment and to Really emphasize the fact that the the horn tool set is actually very wide and that's Uh, that's great because in case you options to basically optimize your network coverage as you need you don't need to compromise anymore, right? We can Deliver what you need and use the right tool for it Right and and the horn technology because there are so many the properties we talked about about voice suppression It really lets you grow. You know, it's as simple as that, you know, but it lets you grow sustainably Right, of course, you can grow an effort even with patch rates, but You know, there's a point where adding adding even one more sector to the tower will make the whole thing collapse And but with horns, that's not the case and just keep going and going So your growth is actually sustained and future proof too because That will hold the property So here's a short small animation comparing the use of the antennas That's on the left is the typical patch array sector with its very narrow wing width in the elevation plane And in the middle is the symmetrical one here symmetrical means that when looking from the front, it's a circle That's all that it means nothing else And with the asymmetrical is a little bit different So you see that there's on the right side and you see if it's a little bit squished from the from top Which kind of resembles the traditional sector, but it's not as narrow. It's not as narrow And again, that's the different shape of the beam that's advantages and specific scenarios So you're looking from the side and you see how the coverage of the patch array sector looks like But the symmetrical horns because of that symmetrical beam You know the the areas near the tower are very easy to cover And the asymmetrical horns a little bit less so obviously because of narrow work in the elevation But still much better than the patch array sector But of course it all depends right because sometimes you really want that spotlight or spot Coverage right so sometimes the The patch array sector coverage pattern can be advantageous too, right if you don't want to cover the areas near the tower Right and if you can do with the noise they receive, of course It's all a matter of all all kinds of conditions, right? It's not just One tool for everything Regarding the down tilt so here you can see on this animation how the coverage changes when using a patch array sector When increasing the down tilt. Yeah, so with the traditional patch array sector You know that the down tilt is very sensitive thing. Then you set it to some two three degrees Yeah, and you you fix it Don't move. Yeah, because obviously when you when you go with the with down tilt higher Gone dead in the water and the coverage is gone. Whereas with the horns As you can see The coverage, okay. Now this is the this is the patch array sector. Yeah That's 10 degrees down tilt Done. Yeah, right with the horn. You can see that the coverage going from 0 to 25 degrees Is just a smooth shrinking of the coverage. Yeah, it doesn't disappear out at all It just smoothly decreases. Yeah, and that's actually another tool in in your hands Yeah, because it really enables you to avoid collecting the noise, you know from far away So if That's the situation you're pointing the horn as a noise source. You can use the down tilt to mitigate Which is really something that's not possible with those patch arrays So in terms of the size, I mean, that's an obvious thing, right? The horns are very small Getting that I don't know how you guys have it here. Do you pay for antenna or per Like the amount of the tower you you all keep flying Per antenna. Okay. Well, unfortunately, that's okay for nothing But then Exactly, that's a great point Yeah, I was about to say that Right, yeah Right, you can see a lot more options in terms of where to place the access point, right? So you don't have to Yeah, that's actually a good one. Thank you Our 30 degree asymmetrical horns has a beam switch feature So this is the radiation pattern as you see by default and when you flip the position of the bracket and the handle You also flip the radiation pattern. Yeah, so you can go from 30 degrees in azimuth to 20 degrees in azimuth And so it's kind of like two antennas in one, you know in terms of the in terms of the beam with anyway so which is Another cool feature So in terms of the mounting our antennas are really also So we really try to do our best in this area too. And so our mounting mechanism is actually super robust It's really like a huge massive That's really ensures that the antenna bites into the pole really well that it holds and you Can also notice those black Black bolts and that's not a coincidence the color actually I mean the material of the bolt is stainless steel But the cover the surface coating is actually black and that that coating Decreases the friction between the between the screw and the track It really decreases the friction meaning that you don't see you can keep tightening those screws Virtually forever, but of course not only until you break the bracket You know, that's a actually, you know, it's a protection for you because oftentimes It might happen that you're tightening the bolts until it's easy to get it right. That's it. You can maybe drill through right But with these bolts it will not happen. That's the that's another great advantage of that And the mounting is also also like very simple. You just have these two parts Two bolts and that's it. Now you're done. It's actually again very simple And which really makes makes it it's something makes the installation very very very quick User friendly. Yeah, so you adjust the elevation The azimuth you have two bolts To secure dot and then also also the elevation And again two bolts to secure dot It's as simple as that So the materials we use Again, we try to use high quality materials so that the antenna lasts In all kinds of environments and especially of course where where, you know, there is More corrosive climate like here, for example, right because there is a lot of humidity so uh The bracket itself is made from aluminum, which is not corrosive by itself and the antenna as well and we also try to high quality UV resistant plastic so so that even the the radon other parts last Well, depends of course, I mean we had uh, you know, we have people who deploy them at the seaside and they can still last for years too For years We don't have a definite number to give you because of all the conditions that has maybe deployed it but uh, I think I mean check our check our facebook Facebook page So use a facebook group and you'll see, you know, people people reporting um their experience with that but Again, I can ensure you they last much longer than anything else that's out You know that I can tell you a question Right, so multiply that two or three times and Yeah, I would say somewhere two times for sure Because we all seen those images of like really rutting and falling apart you think we're in here, right? And Obviously that's something we try to avoid using the materials And just a few examples again. The image in the center is a good kind of Showcase on you know where to use which antenna that the question that he asked as well So the top antenna in the in the middle area, it's a 30 degree symmetrical horn And that's for that dense sector with customers Because it's a narrow beam and that provides you really the isolation you need To isolate the customers from everything else. Whereas the antenna in the middle is our patcherous sector is actually this antenna And that's for those lower density areas where there are not so many customers because obviously It's still a patch array with why you have an an arrow and so the coverage you use And then on the bottom is the is the 60 degrees asymmetrical horn here, which is like for the cases somewhere It was two And here again just a few few more examples Oh, this I think the middle picture is somewhere in Mexico Uh One on the right with the ultra horns Some people are wondering like is ultra horn a pointed point or points of point antenna, right? And the answer is well, it can be both Right because that narrow beam is just two in your hand like anything else So if that narrow sector is what you need and distance obviously because of the higher gain Perfect. Ultram can be a great sector antenna as well So we don't only have the twist port option of our intent. So we also have Okay, let's start with the twist port. So these are all the antennas with the twist port Actually, there is also the dishes that I'll mention. So anyway, we saw this picture already before So you have what is seven four Plus one 13 But we also care of classrooms and these have as you see the The end of the the back of the antenna has this red cap which provides you and female connectors If that's uh, if that's the interface If there are cases or the operators that use a lot of radios with end connectors We might get For which is better or better I wouldn't say better. They're they're an option because in terms of our performance the twist port and the cure of questions and as I Right. We also have point horn bracket, which is This bracket you see and what it lets you do is Let's you install two symmetrical horns exactly the same alignment. So you can sit right here And that's regardless if it's the twist port horns or the or the carrot passports And the advantage of that is that you know when you want a super dense sector Now you have to have a one sector with two antennas Then that's what between our bracket is ideal for And obviously it also enables you to install the you can be pretty talented and Then the mosa 85c and radios by default and there are like metal profiles in the package We are there in the package So then on the on the bracket itself So we also have a part about addition Obviously this is our area to learn useful as well and Our ultraday series are three antennas. So it's going to 1.4 and 0.7 guide gain They come in two packs And they also have have the twist port And these antennas are part about additions and their radiation pattern has been optimized for minimum cycle Unfortunately because of the physics of the part of the dishes you can't avoid the silos completely But we are our engineers that they Invest a great deal of time into optimizing these antennas so that their cyber performance is really as good as it gets And again, if you're interested how good then I encourage you to check our social and channel us and you know Our channel makes a pretty short or even with talk. Have you know that group, right? Where you can search for full tradition cc how people How people look at the performance And there are advantages that Their useful spectrum is it's very wide. It's a 5.1 to 6.4. You guys covering the Well, I don't know how it's the spectrum here. Like you guys have opened all the way until 6.4 Or how is it? So how is it now with the frequencies? It's within that right You said to 5.5 or Right In terms of game stability also dishes have as you can see the game of all three dishes is very stable And also over both polarizations and because again those those curves are overlapping for each of them And these dishes are actually ideal for cd application So the traditional for example the sxt. Yeah, it's radiation pattern. It's like that. It's like a hedgehog Radiating pretty much anywhere right and that basically makes them connect and see All kinds of other other devices around again the same story for choice nothing different here, but you know with the with the old traditions you can effectively avoid jobs by simply because of their radiation pattern being optimized for these kind of applications And also the old traditions have for either the same robust bracket I called we call it ubr now, which really It's just the way it tells you everything chunk of material that you can really trust And for the 27 ebi old tradition, we also have a radon And which you can which in the file if you want if there is a lot of wind Then of course the radon helps to decrease the the window a little bit that obviously protect the antenna from from environment I'm here just a few examples of the deployments. So again, the traditions can be a cpe antenna Or three point appointment And now we come to the starting points So these are all the starter antennas They include they're also designed for five different networks and include the starter one, which is a very difficult symmetrical heart And three starter dishes like one for the four and 27 ebi game. So as I mentioned before The connectivity options of the starter starter products are more limited Right because they don't have to export what they have got that way got important. So you can either Use the rpsi adapter to connect anything with the cables Or some of the radios In the risk industry already But it got in which are those ubiquitous stations or the new ones have safely see from the X's So as I said, the starter heart is a it's a 50 degree symmetrical heart And again just to emphasize the way here our performance is Almost as good as this as the twist port Uh, but of course the price is a lot more Uh a lot more effective, of course if you're looking to increase Or you know, these starter products are meant for for the wisps are that are you know, maybe starting with the art balance part Because you might not be sure what it is how it works. Okay Presentation seems okay, whatever But you know, eventually of course you you want to try the thing And that's where the starter products are good for If you're not sure about this, but still feel like you feel like trying The third degree starter horn is a is an access point attempt same story here, right replacing that noisy Patch erase sector with a with a few of one starter horn You'll you know, you'll notice the difference now the story is all the same Dark performances great very similar to the twist port horns in terms of the connectivity options the starter horn has That adapter you see in the animation in the package Like so so you don't have to buy any additional adapters to connect any and it's in the package or you can obviously Think from the animation you can take it down and connect the ubiquity we've got radio directly without And also with the starter products, we definitely don't compromise this on the materials Will be to use aluminum or stainless steel and UV UV resistant And we also try to try to decrease the amount of plastic for for the packaging Obviously, we also care about the planet and not just the outfit so Hold or most of our antennas are packed like this in the cycle cardboard So the starter dishes are three as I said 21 24 dbi game and similarly here the starter dishes are ideal for cb applications and in the high-nose areas Where the traditional or directive patch rates are might be failing because of the amount Mounting mechanism of the starter dishes is very simple to the starter horn a simple bevel bracket And I've got with the two parts obviously depending on the on the pickings of the hole, but also those those Nuts are Also have that light colored and that's this This color and so that they're also protected from from this And the starter dishes So Connect directly to the osa and the peculiarity There is also the optional starter adapter This adapter with two SMN connectors And that one is not part of the package with the starter dishes only the starter horn So If you want to use it with the starter dishes, it's uh, it has to be purchased separately And then we also have a actually And that's this antenna And Yeah, it's already sale it's for the five people. It's a license spectrum and it has so-called backshifts which Which is our proprietary proprietary Frequency selective service what it does is basically suppress the side modes in the azimuth plane. So in the azimuth plane Uh, this back shield effectively suppresses the side of the And our performance really well With our sector antenna the performance Of both the horizontal and vertical polarizations is actually identical to it. We also put a great deal Of effort into ensuring that again Um, so that you can rely on the performance you see regardless of which polarizations And this uh is a graph of the key Of the of the array sector And it's quite It's quite unique actually. It's quite good if you look the the gain is flat over from 5.9 to 5.1 to 5.9 degrees Which is really something that's not so common on other antennas of similar class not to say that also, of course, the difference between the horizontal and vertical very very small and In terms of the radio connectivity this uh, this array sector connects to all these all these radios you see so including the Oh, so other TP then Also And we also have a few integration platforms which are Boxes like this one the station box all the meaning which is similar to that adapter for the micro degree But it's adapted to basically fit the electronics boards inside So if you have some iot application Yeah, some other application you need to get some enclosure The station box all the meaning it's a pretty good option for them Now the mounting you can mount it on a wall you can mount it on a pole It has a person for the options you have the mounting very very simple But we also have the station box out which is a bigger enclosure It's one of our older products, but it's it was very popular It's a similar thing here It's a metal full metal body enclosure That really lets you degrade all kinds of all kinds of boards That they were used in that section of those you see that red lining along the perimeter out the enclosure is Provides there at the IPC Right so at our moment, we're really trying to do what What's best for the customer? Yeah, just something that serves us, but actually to really make a difference Or for the wisdom itself Part of that of course is our ongoing effort to improve our staff as well because we didn't have those like coated Bolts before but of course we listen to the customers we send their feedback and try to adjust If And of course the the package Also Right I'll leave you with this slide which Again, if you ever wondered how You know to see how our antennas can perform before you actually find them on the Our link calculator on a web page Check that And so again, you were a tennis there said all the parameters of the CD device It will show you the performance Uh that would conclude my presentation and we'll put the we put the recording on youtube and then we'll share it with uh Which is definitely over the to you If you if you will follow us on facebook or somewhere else We'll post it there too. All right, so if we're good. I would like to thank you for your attention Thank you. Bye. Bye