 Hello everybody, good morning. Welcome on behalf of everybody at ISP supplies to the RF elements product overview I'd like to wish everybody a happy Valentine's Day here. Thank you for joining us and Today's gonna be a really good webinar We're gonna go over all the current product offerings for our elements including their beamforming horn antennas twistboard adapters and go over some Products that we're gonna see in the near future here. So we're very excited we have tassels on the line with us and Tassels, it's all yours. Thank you. Great. Thanks Jonathan. Good morning everybody. Good afternoon. My name is Tassels I'm with RF elements and today we'll be doing our product overview Which is we'll go over the kind of horn antenna and twist port adapter ecosystem That that we currently offer At the end of the webinar. We'll have a question and answers segment so in your little app there, you should see a question box If anything that I'm talking about is not clear if you have any questions or anything Maybe that I don't go over in this overview that you want to ask Feel free to type them in now or start start typing as Questions pop into your head and I'll take them all at the end as well as a follow-up questions if you have them So with that we'll we'll get started here So if we look at the RF elements product map We we kind of break up our products into a couple different segments You see that the top two are a symmetrical beam antennas These are beams with symmetrical beams in the middle are our a Symmetrical beam pattern antennas and at the bottom we have our twist port adapters the part of our ecosystem that allows us to connect most of the common Connectorized radios that are on the market from the most common manufacturers to then be able to work with our antenna systems So to start we'll start with our twist port adapters And we'll go into some detail about what and what the adapter is how it works and and what they're compatible with So this right here is actually our twist port. It is the proprietary wave guide Interface that we created that are on all of our twist port antenna systems The the twist port is again what allows you to connect and mount your connectorized Or wave guide fed radio into our twist port antennas Our twist port system actually delivers zero loss So in our original reference design We decided to get away from the connectors and the smas that everybody sees on the current radio platforms and create Wave guide fed radios or a wave guide fed systems for going into our antennas So on the right you see the old standard of a connectorized radio You simply delete the pigtails you put the wave guide feed onto the actual board itself eliminating all that loss and then you create a wave guide fed twist port Radio that attaches to all of our twist port antennas So more detail what's an actual twist port adapter the twist port adapter is You know, it solves the problem of connectorized radios It solves the problems of the external pigtails and such and allows you to take the more popular Connectorized radios that are on to the mark on the market right now and convert them into a wave guide fed Radio system, which then again allows you to connect all these really popular radios on the market with our twist port antennas systems one thing that's very important to note as our product portfolio for antennas has grown that the twist port adapters themselves Connect to any twist port antenna that we offer so whether it's a Parabolic dish like our ultra dish twist port antenna, whether it's our high-gain Ultra horn antenna our older or original. I should say Symmetrical horn antennas or even our newest asymmetrical horn antennas those twist port adapters that you have work on all of those antennas the twist port adapters themselves are specific for The specific radio you want to use so there is an adapter for every radio But every adapter works on all of our antennas So one of the popular radios on the market or manufactured on the market is cambium and we offer a couple of twist port adapters for cambium networks So if you're running the older EMP 1000 radio, we have a twist port adapter for that specific radio now the EMP 1000 I believe comes in about three three different Variations you have the regular EMP 1000 then you have an EMP 1000 light I believe and there's even an EMP 1000 sync or something like that So basically it's the EMP 1000 line There's three different variants of the radio, but all the same form factor. There's one single adapter allows you to work with any of those three three radio platforms if you're running the EMP 2000 radios again, we have a specific adapter for that radio. So here we see the twist port adapter for EMP 2000 Just like all our adapters the radio simply slide and lock into the actual adapter itself Securing it and then with the simple push of the red or gray release button allows you to remove that radio if it needs to Be replaced or upgraded or something and again this EMP 2000 twist port adapter Like all of our adapters work with any of our twist port antennas If you're a micro tech user, we have twist port adapters for micro tech as well the twist port adapters for micro tech are generally for the Small square form factor router boards that they manufacture like the router board 411 911 the older 711s and even the new M11 series boards So here we have the twist port adapter for router board. This is our plastic enclosure twist port adapter So you can see you can take care of it. This is like a 922 board You slide it in the insert you secure it in place with screws You connect the internal pigtails and you slide it up into the adapter So if you're using any of the micro tech Router board small form factor 9 series 7 series 4 series or even the new M series This twist port adapter will work for you and this is the router board plastic or the RBP For people who are looking for more EMI protection We also make the RBC, which is the router board cast or this is a full metal enclosure for better EMI protection again, you just put your board in there with here We're looking at the M11, but again, you can put a 911 922 there are multiple Board form factors that work with this adapter you insert it And then now you have a twist port enabled router board to work with any of our again twist port antennas If you're a ubiquity user, we make many adapters is probably the largest offering of adapters we make Based on the largest number of actual Ubiquity radios that are available on the market. So the first adapter is our twist port adapter for ISO station So the ISO station is one of ubiquities newer round waveguide Fed type radio system So so again, they have a waveguide radio and our twist port adapter for ISO station is simply just a waveguide Converter so it converts their proprietary waveguide into our kind of open standard Waveguide format and therefore allowing it to work again with any of our twist port enabled antennas that we have to offer as far as compatibility there are three different form factors for this one Adapter so if you're running the ubiquity ISO station M5 the ubiquity ISO station 5ac The larger ubiquity prism station AC or even coming in the future sometime soon The ubiquity air fiber LTU radio So for any of these four kind of round waveguide fed Radios from ubiquity this single adapter the twist port adapter ISO station will work for any of these four form factors The next adapter we have is for the ubiquity rocket 5ac prism and also the air fiber 5x So if you're running any of those radios the twist port adapter PFA or path which stands for prism air fiber We have one adapter that works for both of these platforms as you can see Again, they just simply slide in and lock in place And then you have a simple release button that releases the radio and allows you to drop it out another really cool Feature of our twist port adapter for prism and air fiber is we've integrated a slot to mount the GPS puck So you no longer have to have the GPS wire and adapter or GPS puck Outside, you know with tie wraps or electrical tape or you don't have to look for some sort of steel part of your structure Whether it's the pipe or the tower itself to magnetically stick the GPS antenna Now you can protect the antenna and the very delicate wire the GPS wire all Safely stored inside of the adapter and therefore you increase the The life of the GPS antenna and protect it from the elements As far as compatibility for this particular Adapter again, if you're running the ubiquity rocket prism 5ac, which is the original prism ac radio Or their newer gen 2 Rocket 5 prism ac The original or older air fiber 5x or their newest air fiber 5x HD I think it's also known as LTU. This one adapter will work with all of these different Radios so one adapter for four different radios and again the adapters compatible with all of our twist port enabled antennas If you running a legacy system or you have some legacy radios We also have a twist port adapter for the old rocket m5 So this is again one of the original connectorized AP radios from ubiquity It's in the plastic enclosure again If you're if you have any of these on your network and you're looking to upgrade the antenna performance You can get the rocket m5 twist port adapter and then enable that radio for our twist port system here It says available January 2019 and already started shipping so you can probably find it at your distributor and then finally for Ubiquity we also have a twist port adapter for the older legacy rocket 5 ac This is also known on the market as the rocket 5 ac light I believe so again. This is the first generation ac radio non prism from ubiquity So if you have any of these on your mark on your current network or you have some In your store room or you want to use it maybe for smaller installs Whatever it may be we have the rocket 5 ac or the r5 ac twist port adapter for that particular radio Momosa networks is the final Radio or manufacturer that we build twist port adapters for so if you're running the C 5 c connectorized radio from Momosa Sorry Again, we have a twist port adapter for that So the c5c radio with our c5c twist port adapter allows you to use that radio with any of our twist port antennas and Then finally for all other radios. So if there's a 5 gigahertz Outdoor radio system that you're using and we do not have a twist port adapter for we have a Connectorized twist port adapter now so the connectorized twist port adapter is simply a wave guide adapter with two SMA connectors on there So you would take let's say your PMP 550 or your PMP 450 I from cambium or perhaps even Momosa's a 5 c radio these radios are a very large form factor and A twist port adapter is just not really suitable for that particular radio platform for any sort of reason whether it's size or technology You could use our twist port adapter SMA to connect those radios and then utilize them with our twist port antenna system And the twist port adapter SMA works just like all other ones right so again It's it's pretty simple once you connect the LMR the twist for adapter just twists and locks into the radio Into the antenna and therefore allows you to make the interface and utilize our antennas So that's our twist port connector series Moving on from there we go to our symmetrical beam pattern or here is our gen 2 symmetrical horn antennas So the symmetrical horn twist port series this is our generation 2 this is the original or the first horn antenna that we had brought to market and the symmetrical horns have a very unique Property of them of noise isolation and many other other very interesting interesting things So the the main part is that it's a symmetrical beam That means that the azimuth cut and the elevation cut are the same So the beam pattern actually has the same distance in vertical that it doesn't horizontal So it's just as tall as it is wide So it's a very symmetrical beam pattern, which brings you some very unique properties If we were to compare it to a traditional sector like you look on the left You can see that the beam patterns again for a sector are are very unique So a traditional sector antenna or patch array sector usually has a very narrow Vertical beam and a much wider horizontal beam and what I mean by that is how wide it is versus how tall it is Not the vertical horizontal polarities of the antenna So you can see that the shape comparison of the beam is is quite different than what you're used to with traditional traditional sectors Another great benefit of our symmetrical horn antennas is that they have absolutely zero side loaves right so if we look at the RF simulation on the left of our 90 degrees symmetrical horn you can see that it has a very Uniform and beautiful beam shape that comes out of it with zero side lobes and no back radiation If you would to compare that to you know competitive patch array sector on the right You can see how the beam pattern of that and the simulation shows how the RF goes out way beyond It's specced beam with With a lot of RF leakage out the back and very complex side lobes Because of our very unique Vertical beam pattern Symmetrical horns have very small or almost no null zone The null zone is the dead zone that you typically see close into the tower So if you look at the coverage area of a symmetrical horn on the left Compared to a traditional sector on the right you can see that in comparison the dead zone or the null zone to the tower is Much much smaller. So this null coverage area is actually one of the benefits that you get So the close-in customers get really good connections as well Frequency stability is again another great benefit of horn antennas They are extremely stable across the whole frequency spectrum So here if you watch as we kind of sweep through the frequency from lower 5 up to 6 gigahertz You can see how the actual RF pattern changes in three dimensions on the left If you look on the right you can look at the two-dimensional coverage map You can see again how your coverage area or how that beam would actually change in the coverage area where your customers are Again, it's very stable, and it doesn't fluctuate as much as a traditional sector Here we show you the frequency Instability of a traditional sector. So on the left you see your regular Patch array sector and you can see as we change frequency Not only does the beam pattern change but also the side lobes grow not only in intensity, but also complexity The most important thing for your coverage area if you look on the right and two dimensions You can see how your coverage area as frequency changes can either grow or shrink And this is really one of the biggest problems of traditional sectors, you know, they're they're typically You know kind of perceived as a great when you install them you get your customers on You know where your customers can be and can't be You get them all signed up and everything is great and then at some point noise Rears its head and you have to change channels It's a natural part of being a wisp is having to work with the unlicensed band and finding free channels So as you start changing channels you find a new channel All of a sudden you have customers that had good connections who now have marginal connections or customers who had Marginal connections that now have terrible connections. So this is not This is because of the type of antenna that you're using because that beam pattern is changing You're losing signal intensity in certain areas and maybe even growing intensity in other areas And this really creates a hard problem for you to maintain your network as you're dealing with noise So the frequency instability of a traditional sector is is horrible compared to a horn antenna And then finally signal density one of the other great benefits of horn antennas is that they are Extremely extremely precise. So the signal density shows you how the signal starts to drop off as you go to the edge of a Horn antenna or or any antenna should say so here we can see in the different colors Where the 3db drop-off the 6db drop-off and even the 12db drop-off is on a horn antenna So you can see you don't have to go very far past The edge of the specced beam angle of a horn antenna before the signal really starts to drop off if you look at a Traditional sector on the right you can see that the bleed-off or the signal drop-off is much much slower Which makes traditional sectors very hard for controlling your RF pattern because they typically bleed and go way further than The specced angle. So if you're buying a let's say 65 degree Traditional sector You're more than likely capable of using that at up to 90 degrees or even beyond 90 degree sectors Typically go out to about a hundred and eighty degrees in effective Antenna gain and therefore make it really hard for you to plan Your coverage and this is what starts causing the the issues for co-location with you not to mention the side lobes Right, so this is just main mainly the kind of signal density of the main beam So you add all that stuff together a horn antenna gives you much better signal density and a much better control over your RF network Our symmetrical horn series come in seven different sizes So we have everything from a 30 degree all the way up to a 90 degree horn in 10 degree steps So from 30 40 50 60 70 80 90 One thing to note is as you go wider in the beam angle of a symmetrical horn of our symmetrical horn The gain drops as well So it's really important to note the relationship here where our 90 degree horn for example has nine and a half or 9.6 dbi of gain Measured at the negative six you can't just typically take a 90 degree symmetrical horn and replace a 90 degree traditional sector Because of the gain difference you're probably not going to get the range, right? So this is something just to pay attention to when you're trying or thinking about planning out Or adding horns to your network is paying attention to the actual gain versus the beam angle And there's some great benefits to to all of this a Horn antennas are also very compact in size, right? So they're about a quarter of the size of a traditional sector So this compact size allows you to really pack AP density on your tower, right? So you can mount anywhere between three Maybe up to four depending on what sector you're using in the same vertical space as a traditional sector So the horn antennas are symmetrical horn antennas are very compact and allow you to mount Many more APs in the same vertical space as a traditional sector all this stuff when we bring it together really creates this Colocation miracle Honestly the precise radiation angles the noise isolation the lack of side lobes all of these things put together Really give you the ability to co-locate like you've never been able to do with traditional sectors Not only the small space so you can stack these things on the tower Not only they'll reduce the wind load Not only reduce the wind load even further because you don't need you know third-party shielding kits really everything these these horn antennas kind of address all the issues of the You know current sector technology that people are using and and really fixes all of those problems If you look at the competitive sector antennas on the right you can see how They receive noise not only because they're capable of hearing past their you know their spec the beam angle but also all the side lobes and everything interact on the same tower or even to Other towers and really create issues for you and reduce your overall network throughput Here are some pictures in the field to kind of show you the co-location miracle We're talking about so we don't just say you can mount these things very close together These are actual wisps out there and how they're doing it and you can actually see how close you can mount these things together And you just do not get this type of co-location capabilities out of any other intent on the market today By offering so many different beam patterns and beam angles and gains really give you this massive scalability again It gives you the ability to You know create beam patterns and cover areas where your customers actually are to ignore areas Where noise is or you don't want to hear from so Mixing and matching all seven of our different horn antennas really give you the ability to again paint your coverage area Be responsible to not send a signal where it doesn't need to go to not hear signal from where you don't want Where you don't want it and really just putting the RF signature out to where your customers is and and where You know where your customers actually are so the massive scalability is capable with our thumb and symmetrical horn antennas The antennas themselves are you know very durable if you've ever see if you've never seen one before I think you'd be quite surprised or quite happy when you receive it to see that's very durable We use very high quality stainless steel extruded aluminum You know very UV resistant HDPE plastics and UV rated plastics ABS plastic So all the materials that we use to build our antennas are are made to last right to not corrode not degrade over time So a very durable build and made to last the lifetime of your radio at least and then beyond Here again are just some more deployments out in the field that kind of show you With different radio platforms, whether it's micro tech or ubiquity How these antennas again can be co-located with not only other horn antennas and sector antennas and backhaul antennas Really co-existing is great And finally some last pictures of deployments that are out there So now we're going to cover our ultra horn, which is our point-to-point antenna So the ultra horn is a 15 degree wide 24 dbi horn antenna specifically made for a point-to-point Like our symmetrical horn antenna. It still has a symmetrical beam. So it's it's highly precise It's 15 degrees wide and 15 degrees tall Our ultra horn still possesses the same frequency stability that we saw previously previously So as we change channels, you can see how the beam pattern in three dimensions or in two dimensions Is extremely extremely stable our ultra horn also has zero side lobes So if you compare it to a parabolic dish antenna on the left You can see all the complex side lobes and how those Side lobes can receive and create noise for your network One thing here is the shroud effect So a lot of people like to put shrouds on their dish antennas and the parabolic dish antennas and to see some Better co-location and here on the left we see a parabolic dish antenna without a shroud So you can see all the complex side lobes that a parabolic dish antenna has specifically Perpendicular to the main beam or at the edges and when you put a shroud on the right you can see that same antenna really you're not really Creating a better beam pattern or more noise isolation You're simply just changing the beam pattern and creating even more complex side lobes If we look at it in more of a two-dimension You can see when we add a shroud all it does is it just takes All those side lobes and just basically pushes it forward and squishes it forward. So this is without And then this is what it looks like with a shroud on it. So again It creates a kind of better co-location experience on the tower where it's mounted But it's really changing the fundamental principles of the radiation pattern Forward-facing so it affects the connection more than it does Save you on the co-location on a tower. So having no side lobes is is really the best best thing to do So true noise rejection You can see on the left with a horn antenna with no side lobes and no back radiation compared to parabolic dish antennas Our horn antennas also have the ultimate performance in gain, right? So if we look at the gain across the spectrum, you can see it's extremely stable If you compare this to other manufacturers on the market of parabolic dish antennas Usually the gain that they spec is the peak gain. It's usually in one frequency across the whole band And it's usually sometimes even in one polarity. So our vertical and horizontal gain is identical And you can see it's a very stable and very flat across the spectrum So if you're changing channels from uni one to uni two to uni three, you know that you're still getting the same effective You know spec gain of that antenna across the whole the whole spectrum Without losing much and great great performance there Our ultra horn also makes alignment very easy, right? So without having any side lobes like a parabolic dish antenna does, you know if you look at how How many times you can possibly misalign an antenna because the side lobe intensity is so high You could still receive a decent signal and be connected to a side lobe where with a ultra horn on the left You can see you're either In main beam connectivity and have a great perfect connection or you're out, right? So antenna alignment is easier and more robust with the ultra horn Also, the ultra horn, you know, it's not just a high performance point to point. It's also a high performance point to multipoint So if you have a cluster of customers that are within the 15 degree spec beam angle There's no reason why you can't use it as a high performance point to multipoint antenna as well Really when it comes down to it the antennas don't care. It's just a matter of whether that antenna possesses the Specific parameters that you need for either point to point or point to multipoint and the ultra horn can do both Like all of our antennas again extremely durable build, right? So we use the same stainless steel high-grade plastics aluminum and even higher quality other types like zinc and other metal layers right so Built to last and not corrode and last lifetime of your network If we look at some of the deployments in the field here, you can see on the left in the middle These are actually very high density point to multipoint using the ultra horn on the right. We see a point to point This is actually a 15 15 mile link with e p and p 1000 So this is a 24 dbi horn antenna doing a 15 mile link Nobody would ever think to do it this 24 dbi ultra horn replaced 30 dbi dishes And all their problems went away. They're solid mcs 14 50 15 It's been running for almost a year now coming up. I think on eight months. Maybe or something like that so close to a year even solved a thermal inversion problem that they were having with their Parabolic dish antenna so clearly the ultra horn even though it's perceived as low Gain to what people are used to Really outperform Many parabolic dish antennas on their links Again here you can see some more in the field and point to point some co-located with sectors and and other other antennas so Really great antenna. It's performing fantastic. It's a fantastic in the field So now in our symmetrical type beam pattern will move to our ultra dish, which is our parabolic dish antenna So the ultra dish series of antennas are again five gig antennas that we offer two variants of so we have the ultra dish 400 which is a 24 and a half dbi antenna and then we also have the ultra dish 550 which is a 27 and a half dbi antenna again. These are both twist port antennas So they become compatible with all of our twist port adapters So our ultra dish is a parabolic dish, right? So it still possesses side lobes But we've created it in such a way that we were actually able to suppress some of the side lobes So you'll see really good performance out of our parabolic dish our ultra dish 400 and 550 Still possessing side lobes, but really good side lobes suppression. So really great performance The ultra dish also has very stable gain like all of our antennas So the vertical and the vertical and horizontal beams themselves have the same gain So they match and you can see that the gain across the spectrum is extremely stable Right. So again as you change channels from uni one to uni two to uni three You can ensure that you're going to get pretty close to the actual spec gain no matter what channel you are that you're in They also make great cpes. So a lot of people like to use high gain panel antennas for cpes and high density ap locations And what you can see is that the complex side lobes from these antennas are actually capable of hearing multiple ap's at the same time So direct directional patch array antennas aren't really the best Using an ultra dish for these high noise environments with suppressed side lobes Give you the ability to again focus mainly on the ap you want and not hear the other ap So it's a a great design for cpe as well as point to point. So Something to consider there Our ultra dish also has a very innovative mount. So the mount only requires two bolts and you're done Right. So no more fussing around with a bag of bolts and washers and nuts and locking washers and all this other stuff So all our screws are captive screws. You can see very innovative mount for Adjusting elevation and azimuth Again, two bolts and you're done in most cases you you can you can mount the first bolt on the mount And then really you're just putting one screw in when you get up to the top of the tower So very innovative mount Brought to you from our fellowments If you look at the deployments in the field again, uh, they're used for not only point to point But also for cpe. So here we see a few different variants here with ubiquity prism mimosa v5 c5c and backhaul and even as a cpe at a customer's house. So Great great for all different types of deployments So now we're going to move into the asymmetrical horn patterns or our asymmetrical horn twist port antennas So the asymmetrical horn twist port series Is our newest horn antenna And these antennas are different than our current horn antennas in that they have an asymmetrical beam pattern versus symmetrical So if we look at our 30 degree asymmetrical horn, you can see that it's actually 30 degrees wide, but only 20 degrees tall The 60 degree asymmetrical is 60 degrees wide, but only 25 degrees tall And our 90 is 90 degrees wide and only 25 degrees tall So this allows us to focus the rf energy better and deliver you more gain At wider beam angles. So this is kind of the more sector feel that you're used to With no side lobes and and much better rf connections So again, we have, you know, the the most perfect beam coverage with our Asymmetrical horns still giving a small null zone But giving you the very unique coverage area of high gain with wide azimuth and narrow vertical beam width Like all our horns they have absolutely zero side lobes. So here we can look at a 60 degree Asymmetrical horn again, you see a very beautiful very uniform rf pattern with no side lobes and no back radiation And again, if we compare it to your competing patch array sector on the right Again, you can see very sloppy lots of complex side lobes and a lot of back radiation. So no shielding kits Nothing else is needed. You get the perfect antenna for the perfect coverage You still get great frequency stability with our asymmetrical horns It's everything that you expect from rf elements So if you look at the three three dimensional radiation pattern or the two dimensional map coverage You can see as we sweep through the frequency from five up to six gigahertz You can see that the coverage area stays very stable So again, if you run into noise issues and you need to change channels Or you need to add capacity whatever it may be Whatever reason you have to change channels for you know that the coverage area that you planned out to begin with Will not deviate much from the original plan and therefore all your customers will still have Very close to what they originally had as you change channels This right here is probably the the most important thing to note That we have very balanced horizontal and vertical beams. That means your horizontal beam and your vertical polarity beam Are practically, you know exactly match if we look at traditional sectors, usually One of the polarities whether it's vertical or horizontal is usually much wider Than the other and this gives you huge chain mismatch errors as you get to the Side in the edges of that coverage area and with our asymmetrical horns You get balanced horizontal and vertical beams and therefore you get perfect Chain-to-chain performance throughout that coverage area Unlike your traditional patch array sector where you have very unbalanced horizontal and vertical beams very unbalanced vertical and horizontal gain And really there's nothing like an asymmetrical horn beam pattern Out there right now on the market So these antennas are really great for rural deployments This is where you might have a very low density of customers But a very A very wide distance or a much longer distance or area that you have to cover So this is where you you know, you may not be able to Or your business model doesn't support running. Let's say 12 30 degree Symmetrical horns to give you 360 degree coverage So now with our asymmetrical horns with the higher gain in the wider beam as myths You can use these in rural deployments and in cover areas that you possibly You know couldn't do before and again looking at traditional patch array sectors You have no side lobes with our horns and therefore you still get all the noise isolation that you need and co-location capabilities So even though we only offer three different Asmus or beam angles 30 60 and 90 You still get in rural areas the same ability to kind of build your coverage and You know only send signal and only hear signal from areas that you want And still give you that great noise isolation and and massive scalability Again like all of our antennas. They're built to last and very durable So again, we use all the same types of products or materials in all of our antennas. So You know, you can be rest assured that the antennas are built to last and Will will last the life of your network So finally we're moving to our symmetrical horn carrier class So a symmetrical horn carrier class is just like the Symmetrical horns that we showed earlier without the twist port. So basically these are connectorized twist port and uh, sorry connectorized symmetrical horn antennas So if you have radios or your network only runs kind of those larger form factors like epnp 450 or something like that There's no need for you to have a twist port or a connectorized twist port adapter You can simply get all seven of our Symmetrical horns with the end connectors built in therefore reducing the complexity of your install Again, all the same rf performance that you saw earlier from symmetrical horn antennas all the great noise isolation No side lobes flat gain You name it all the same performance just with end connectors built in We also offer the ultra horn that we saw earlier in the carrier class series as well So again, if you're running only Pnp 550s or or some other sort of large radio for backhaul Maybe b5c from mimosa again. No need to get a twist port Twist port antenna and then a twist port adapter You can simply buy the carrier class series of the ultra horn and therefore you're ready to go with end connectors built in And again, here's some some deployments out in the field. You can see i'm almost a a5c on the left You can see again with the carrier class horn. There's no need for the twist port adapter sma and then the cable So here's some deployments on the right. You can see this is actually e pmp 2000 all the way on the right This is before we had a twist port adapter available for it So again, if you want all the great performance of horn antenna and there's no twist port adapter available You can simply just get our carrier class line And then finally our carrier class sectors So our carrier class sectors is our original antenna. This is our Patch array sector from like seven years ago or something like that, right? So we offer two different carrier class sectors, which are you know, again, you know patch array type sectors We have one skew in 2.4 gigahertz. It's the scc cc 214 And it's a 14 dbi 2.4 gigahertz sector and it's specced at 100 degrees wide On the right, you see our five gigahertz variant. This one is a 20 dbi sector And again, it's 100 degrees wide. So we have again traditional sectors as well But this is our legacy product for anybody who's interested in those Even though it's a patch array sector, it's actually still very unique So what we did is we created a back shield that's built in Entuned specifically for this antenna. So when you go out and you buy an antenna that's poorly designed And then you decide to spend some money on poorly designed shield kits and add them on You really start running into problems because again You can't just take a metal surface and strap it to the back of your sector and expect everything to work properly They actually have to be designed and balanced and everything to work with your actual patch array So our back shield is actually some special frequency selective services and these frequency selective surfaces Help us attenuate The back radiation not just put a ground plane behind it But specifically tuned to attenuate that signal, but it also helps us form the beams, which is really important So we showed earlier how Mainstream sectors usually have a vertical and a horizontal beam which is very unbalanced Usually one's wider than the other Sometimes gain is higher than the other in either vertical or horizontal depending on the sector But our back shield actually helps us form the beam so that the vertical and horizontal beams Are as closely matched as they can be for a patch array sector So you get very very good chain to chain performance out of a traditional legacy Patch array sector antenna And here we see some deployments again in the field so you can see you can still co-locate our Carrier class sectors very close together And and use them in in in many different ways The carrier class sector line also has the kind of sliding click in lock Radio slots, so if you're using like rocket m5s or prisms or even epmp 1000 They just slide and click on the back So you don't have to find or use tie wraps or tape or some other mounting apparatus for the radio So they just slide and click in the back and the pigtails are protected with our original Pigtail cover that slides in the top. So actually a really great performing patch array traditional sector If you still need that on your network Really at our filaments where we're kind of setting the new industry standards I mean we see this every day for those of you who know us you're seeing it as well In other products that are coming to the market right so we set the standard for noise rejection In bringing the very unique properties of horn antennas to this industry We also set the standard of zero loss or near zero loss by transitioning radios on the market from connectorized Connectorized radios with pigtails and connectors and Needing tape and all this other stuff to seal them to waveguide fed So so it's a new industry standard that we've set Over four years ago and continue to set that standard moving forward And really we're delivering on the massive scalability up until now it was really Uh Not possible or very difficult to be able to get the very extremely high density AP AP density on your towers to give you massive scalability We have customers with thousands of horn antennas on their network We have customers with dozens of horn antennas on a single tower right so I think 20 or 24 plus was the largest amount of ap's When we first came to the industry with this and we talked about the what was possible People said I don't even have Enough channels. I don't even have three extra channels to put three horns on my on my tower And we showed that over time it was really the noise rejection and the the low loss of our ecosystem That gave you the ability to reuse channels and really bring this massive scalability to the market Like all of our antennas again, they're all built the same right? So they all used the same type of you know zinc alloys aluminum alloy stainless steel High quality outdoor resistant plastics really We aim for excellence in outdoor resistance From the elements and also we focus on the usability of the climber right? So whether you're the wisp owner the wisp operator or the climber or the installer You can really appreciate the time that we put into designing how these things are built How they're put together and how they're installed in the field. So really We've knocked it out of the park on on many of these points not just focused on one We didn't just focus on gain. We didn't just focus on beam angle. We didn't just focus on Mounding apparatus. We didn't just focus on ease of use. We focused on everything to bring you the ultimate solution Finally another note on our hardware. We use all stainless steel hardware So stainless steel hardware needs the use of anti-seize lubricant, right? So the the bolts that you use to mount this Stainless steel is known to gold right? It's known to bond to each other when friction is applied So all you have to do is just use some cheap anti-seize that you get at the auto parts store Just put some on the threads and you'll ensure that You know, you'll be able to use and reuse and remove these antennas Over and over again as you move them through your deployment. So please use anti-seize And finally some ecological packaging right so we've also thought about the environment right so You know, we've reduced the amount of styrofoam we used to have we used Recycled cardboard as well. So so we've put some thought behind that as well So Our youtube channel so we have So much information available to to the public whether it's on our website or our youtube channel Is really a great place to go I know you know hearing the vendor or the manufacturer tell you how great their products are is Usually pretty useless right you have to either see it for yourself or hear from a trusted source Right so I ask you to go to youtube and go to the rf elements youtube channel and look at a You know, all of our customer testimonials We have a ton of interviews with customers Visits with customers and listen to your brother and sister wisps out there and how they've used our products How they've helped and how we've really delivered On everything that we said we do right so it's not just lip service from us You can hear from wisps like yourself. So go to our youtube channel Also our online community right so we have a forum. It's rfe lab.com This is again another great place to go To get information not only share your ideas ask questions or hear or find answers to questions you may have right So if you go to our forum, it's a great place to get great information We also if you like our swag if you've seen some of our swag and you've missed the trade shows and you want to get it Everybody who signs up for our forum gets a free t-shirt of their choice So just go on out there for the free t-shirt if anything you don't have to even Become part of the community if you don't want we'd encourage you and really like it if you did But by all means just go to our forums rfe lab.com and sign up and uh and join the community Find some trademark disclaimers here So all third-party trademarks are used solely to reference the compatibility of rf elements products all rights of Respected trade owners are reserved So all the trademarks that we use the names here are only to reference the compatibility of our products. Thank you