Transcript

Transcription
September 17th 2025.

David Alvarez   0:11
Hello guys. Good afternoon for everybody. Hi, Juliana.

Juliana Florez   0:17
Hi, David. Welcome everybody to this webinar.
OK.
I don't know if we can wait a little bit, 2 minutes more.

David Alvarez   0:33
Perfect.
Hi to a flight team. Welcome.
So Juliana, my screen, yes, my screen is is projecting right now.

Juliana Florez   0:59
Yes, we can see your screen.

David Alvarez   1:01
Perfect. Perfect. We I appreciate.
OK.
So we can't just.

Juliana Florez   2:08
Yeah, I think, yeah, I think we can start now. So hello, everyone. Welcome to this webinar. Today we're going to talk about FCC compliance in six gigahertz. We have here David from the point. Welcome, David.

David Alvarez   2:11
Oh.
Thank you.

Juliana Florez   2:26
Please feel free to drop your questions in the chat. We will at the end of the session. David, you can start now.

David Alvarez   2:38
Thank you. Thank you, Juliana. Hi. Hi everyone again. So it's my it's my pleasure to stay with you here. I appreciate your time to to hear this live webinar. This this will be a very.
A very fascinating webinar because we're going to talk about the 60 gigahertz complaints from the FCC and the most important where we can power it with that rules with net point antennas. So this live webinar is sponsored by Flighted Computers.
And so my name is David Alvarez. So today, today we're going to talk about or the hand up for today. It's going to be the six gigahertz market context, the FCC regulatory frameworks.
Net point solutions, 6 gig or her products and pre deployment requirements and question and question and answer session. OK, so we're going to start with the 6 gig or her market content.
Why city of her matters that the congestion and limit unlimited stability, rivaling demand for high capacity wireless link as data consumption rise that you know.
Driving by streaming, broadcast, cloud service, IoT and the 5G service provider and the most important enterprise require more reliable and high throughput wireless connection.
The six gigahertz that you know supports multi gigabit wireless broad health solutions and fires its wireless access, making it ideal for rural or urban connectivity connectivity expansion.
What what means with that we are, we are in the new, in a new age where the high throughputs, the high quality and the demand of the Internet connections.
It's going to it's still growing every day and the most important we need to make more more strong links for end users and for the for the for the West around the world.
But most specific in the United States right now the the legacy on the only sense spans in around the world to that 4 gigahertz and the five gigahertz at cetera to do while the press the use the Wi-Fi IT devices.
And and various and and various wireless wireless system congestion leads to interference that you know reduce reduce the performance and the limit unlimited scalability in these bands the most.
The most particular in the six gigahertz and the principal highlights, it's a wider channels because with with a wider channel we can achieve a better throughput we can get for example.
Excellent low latency and the most important we are ready for use that technology up to the 160 megahertz channel and more and more in some regions for example.
Enabling faster data rates and low latency. So we think that 6 gigahertz it's ideal for the high performance applications, right? Because less interference conference to the legacy bands or other bands that you know for example.
5 gigahertz, 3 gigahertz. Now with the CBRS is still working and we have a new a new opportunity for work together and and and and multi link operations.
Bands and and that's new opening and regulating with better coordination because if if we if we if we make memory about the use of the 5 gigahertz and the United States the regulations.
It's it was it was a it was a chaotic relations relation because every everyone's everyone's used the 5 gigahertz for work right now. But what happened?
All the all the types on this point change. Right now we are using for example fibre to the home combined combined with the with the with the wireless and.
The the FCC right now take the control with a better way to get a better coordination and the six gigahertz going to provide support emerging technologies for point to point.
Multipoint links right now. Why we can do with that? Well, we can work with the with the specific bands. We work to to achieve a better and the most important.
We can, we can, we can, we can check the interference in there in your area where you going to begin to deploy. Why? Because the six gigahertz band, it span from 5.9.
To 7.2 gigahertz. It's a total of 1200 megahertz of demand and the most important we can provide better Internet and made more reliable and and and achieve scalability.
In all the deployment with the six gigahertz that the the FCC regulatory framework or deeds is to divide into the suit and the suit bands has and the and the suit bands. Now has each a suit band. It's a different rules for example.
The low powers and indoor deployment and outdoor and the use and the use and device types with with the most important of this with no automatic frequency coordination. Well we need we need the system the the FC.
The IFC system or well the automatic frequency coordination as required now the products on the six gigahertz right now design even on this on the Wi-Fi 6 gigahertz on this on the Wi-Fi 6 E on the Wi-Fi 7 routers are.
And consumer devices. So what we do when the automatic frequency coordination of the well with the with the system with the AFC system well.
The automatic frequency coordination is a system designed to provide interference between outlicensing bands like Wi-Fi as I say, or wireless radio and licensed on camp service operation on the six GHz bands.
With this we can make such as possible microwave links, cell intelligent ground stations and and get utility.
Diability networks. In this set, the automatic spectrum is an automatic spectrum management system that dynamically accurates the frequencies and power level based on the concurrent spectrum used in a specific location.
In the most simple words, the FCC coordinate in which band you are going to begin a work. For example, if you try to make a lean in six gigahertz or in four little in.
In Florida, well the the FCC with the with the FC FAFC system is going to going to check which frequencies is used in that place in that area.
And it's going to give you what going to be the power that you can that you have available there and the most important you're going to, you're going to have your personal frequencies for works in that areas.
Or maybe in that locations or for specific customers that you want to deploy. The most important is that how the FCC works in the simplified process has has I say we're going to start with the device in.
Device initiation and a standard power in the six gigahertz device, the radio or the access point starts up in the request frequency access. For example, if you if you're going to work for example.
In seeds in seeds 6.4 gigahertz you you going to check the the requests and the frequencies and you're and it's very important you're here you always.
Going to be determinate by the precise geographic location with GPS or your manual or your configuration. That's mean with the use of the GPS on your radio for example you are using an antenna.
With that still on radio, OK, your GPS going to help to to determinate the area where where you're going to begin for work and the most important the the compliance on the FCC.
Have the have the principle, the principle focus in in don't use the all the power of the radios and and approve the the power of the antennas.
While we can do that, the query of the FCC system is the device sends the request to the FCC certificate certified, sorry certified FCC system, including the location and the device characters, for example the power.
The levels, the antenna height, etc. And with that you have the challenge assessment to the FC system to checks for NERVI incubus user and recruit the Fiset microwave system and return the list.
I return to you with a list available to channels.
Allow it for powers level and that device can safely for use. With that you don't have interference for other users and you can approve all the channels with and most important.
You can get a better throughput for the end user, or maybe to make the distribution of the Internet more easily. And the most important, you're going to have one link.
Reliable in all the time with of after all of this the the operation authorization, the device configurates is the radio to operate only with the icing channels and parameters.
For example, if we going to work directly with gears like Mimosa, Mimosa's, uh, CC ads, or maybe when they can be on APMP.
4600C with the with the GPS you're going to you're going to notify to the FCC in their areas where you going to be for begin for work with mostly specific in bow help in bow hold radials or maybe.
Maybe if you want to deploy in areas where nobody is deploying right now in the six gigahertz, maybe you can achieve all the bands completely with, I'm sorry, without the authorization for all the.
Advanced but we have one real very important we can we can have to to make the complaint you need we need to.
One principle rule, mandatory rule on the six gigahertz, that's that power, the power they can works in a specific in the six gigahertz. Then it's the power from six DBA and that power with that come.
That will be combinate with the K and antenna and the most important we need to we need to improve if you if you want improve but how links or CPA links for the end user OK you need to considerate.
Which going to be the distance and and and one thing very important, what is the trouble you can achieve right the device it's configured.
with the with the power of the the radio and the and the gain and antenna. And then we have all we have all the all the sorry we have all the all the areas for work
Very closely and we and we have other very important thing in this area.
We are ready to still deploy in in more places around all the around all the on the certification all the assigned the assigned channels channels parameters.
On the FCC, for example, how Netpoint helps in the 6 gigahertz regulatory and deployment contents. Well, the principal, the principal area in these cases in the highlights on the Netpoint is more specific Netpoint's product and service.
Aligned with our support and regulatory frameworks and deployment requirements in the six gigahertz band. Why? Because we offering antennas that covers the frequencies from 5.9 to 7.2 gigahertz band and that point along the deployment to exploit the six.
Gigahert range right? We we have fully the 6 gigahertz span for words and whatever delta radio you said must be certified certified with the FCC and the most important that the all the radios in.
In the United States right now have the the standard power and the other uses for the FCE regular complaints is required that you know with that we can we can choice in use for example in areas where you have for example.
Example links from several months you can deploy netpoint together with any brands in the market when the FCC with the AFC companies.
That you and that we we are very and we are working to deploying antennas with high with high gain and high stability for words in all the six gear here band for example the manufacturer.
On the high gain and parabolic antenna for the point to point links and CP links, their products line includes model MPC, MPX, MPG, MP64, MP66 designed to cover the frequency.
For example, in any cases, for example, on the five gigahertz from 4.9 to 6.4 gigahertz, but we have order our family lines on the net point, for example for the standard performance.
In the in the 5.9 to 7.2 gigahertz range in the no in the cases in in low in when where you don't have interference or maybe you have areas with.
With an insignificant.
Requirements from your customer, but do you need for example high performance in all your deployments with the six gigahertz? We have right now the models MP at seats. The model MP at seats of net point covers the same frequencies from 5 point.
9 to 7.2 gigahertz. But the most important the other antennas have all the beam in the focus to achieve a great a great gain and its stability and what other things so first with Nat point so we offers directional precision.
High front to back installation and good BSWR to capable for long listings in the over the 10 miles or maybe 50 miles or do you prefer from for maybe?
3 kilometers up to 150 kilometers depending on the model and the antenna. The principal highlight of the NutPoint products works directly with the FCC compilence. It's reduced the noise interference and the most important it's work directly.
For works for the point to point links deployment or you can achieve the user antenna for CPE connections. The most important it's a broad compatibility and flexibility with other type of gears, for example gears like Cam and Edwards.
Most networks, Microtip, ubiquiti, Radwin, even Astro Wellness and other on other mods we support. We have support on your deployment and the most important you have local stuff in the States and and warranty.
And without these antennas covers the frequencies from six and seven gigahertz band that problems all the network problems it's built in Mexico and design and the design and the.
And the and and it's and it's manufactured in Mexico, sorry, we don't have turrets right now and and that's very important because you need to to get a better return on investment with that point you can achieve it.
And and you have a better quality and get a better results that other that other manufacturers around the around the world. But right now it's available in the United States for example the family on the net point.
We have we had a family a very specific family for example in the six gigahertz models you can use in the for short distance links. We have products like MP seeds, DP2 foot with antenna you can cover the.
Frequency range up to 30 kilometers in the and the most important in that you have 37 DVI of gain in the antenna with a very particular in a very particular very with low profile 2 foot antennas.
And you have the dual lamp for use a 40 in four degrees in the antenna and you can deploy for example with the Cambion, with the Cambion gears or maybe with ubiquiti of that you if you prefer mimosa you can do it.
It's very flexible. That's that's the principle reason why Nandpoint is very successful with the ISPs around the world. And for example, if you need more game in in that in that case is for example because you have a lot of power.
In the area or maybe you have maybe you have channels, channels very close to the seven gigahertz. So I have a good a good news for you. All the antennas in the net point working from the frequencies from 5.9 to seven to seven.
Point to give her band have the game very, very, very.
Very focused and you can get the better result in the beginning of the band and the final and the final frequencies of the band. Well, where you with this you can achieve a a very good signal.
This is very important because right now I see a few a few links around the United States with with other gears together in other type of antennas and the signal is around from.
707272 DBN. Well, with Netpoint you can achieve 16 sixty-five or maybe you can achieve 16 and that's incredible. I think that's pretty sweet because with things with that.
You can improve more your links and most important, you can achieve a better throughput. For example, in these cases, we recommend to use the three foot antennas, the principal model MP6DP3 foot with 32 dbi of gain and.
3 foot and three foot antenna with Joslan you can you can achieve you can achieve a good signal as I said a few moments ago and the most important you can use you can use that antenna for long for long distance.
For example, maybe maybe 12 miles or maybe 15 miles. Why not? And for example if you if you need, if you need.
Long distance link for example you can achieve with the city gear herd models with the super deep antennas of net point with RADM and the most important that antennas.
The principle focus is inside on the beam and the beam in this antennas is very closely if in two degrades, 1.8 degrade with the frequency with the same frequency range, but with the size from 4 foot.
Or 6 foot you can you can you can use for example the Terry 6 DVI antenna on that point. It's a model MP MP seats SDP for foot. With that antenna you can use on long distance link.
With with almost in the distance up from 100 kilometers or maybe 65 miles or you can or you can you can chose to use the the other model, the six fold antennas.
That antenna is used more for license band in the six gigahertz in the six gigahertz in the six gigahertz sorry deployment with with gears and with very specific frequencies for example.
6800 megahertz or maybe 77700, sorry 7000 megahertz. So we can we can we can choose to use for example.
The model in six foot antenna with four DVI and and you're going to see the the size of that antenna in the in the reasons that you why to use net point in these in these cases.
All all one, all the antennas and net point having the box in cloth, the jumpers or or the codeset cables and with that you have the print, you have all the integration together because all the gears connectorize it.
In the needs jumpers for example to make to make this more more easy for worse for the for the ice piece or any deployer around the world we we have in the antennas the connector and female.
Right, because the M female is more strong, is more reliable and most important you can you can find very easy, very easily one jumper with connector and female to SMA.
Mel so and this is great this this is this is to make the antenna more more fast to deploy. One thing very important all the antennas it's very lightweight and this is and this is very grateful for all the tower climbers that's work for example.
Work. For example, if you don't have all the facilities for deploying for deploying the six gigahertz antennas, even in four foot or six foot, and it's in a place that's very far, you can.
The moment antennas very easily and the most important deployment time is very fast and we're thinking in made the things easy for you, right? Right now we had other challenge in the six gigahertz in the.
Gigahertz antennas because we're still waiting for new gears of radio gears deployments. Sorry, we are expecting for new radius manufacturer to introduce the radius.
In the AFC with the AFC regulatory compliance from the FCC to get a better results and the most important is the ability to use for the users.
For example, if you are deploying Camby networks, you can change to Mimosa or maybe maybe one day tomorrow you can prefer to use the radius like Wavemilo's file and seeds from Ubiquity.
Another very important things you can you can improve to use for example where A5 or 65HD from from Ubiquiti or other ones to like that. The most important is this we are ready for work with any radio on the market.
But if you worked, if you if you are considering for works directly in the United States, you need to deploy net point with with with one radio with the AFC system, right?
So why why Netpoint might be the best choice? Well, in resume the high the high gains in antenna and the more stable links important for bot home links over.
Over kilometers, better signal strain and less sensibility to interference or noise. The wide frequency covers mean flexibility to especially to to regulatory right.
Regiments and comparing and competitive may be ****.
Other very important things to make the integration very easily with operators can make radio. They they are ready to to prefer to to have to prefer the dual parallelization held to capacity and reduce the.
Much much losses. This is very this is very important because one thing in any manufacturer in antennas it's the the loss between the between the change and the and the and the BSW are in the antennas.
If you have a a high a high value on the a high value BSWR in antenna, well your antenna not not going to work very well.
But the FCC in this case with the FCC compilence with the with the with the net point and the radius of Mimosa, you can get a better results, for example with Mimosa with the Cambion.
With netpoint you can improve any links if you want to deploy. For example other one thing with netpoint is a different on the size and antennas. Have you say have you if you see here in the picture we I.
I am here with the with one antenna from 2 foot and between between between the between the two foot antenna we have a six foot antenna and with that we had different sizes where you.
We can choice between the gain, the bandwidth and different and you can considering to deploy different types of links, different type of links around the.
Around the around your authorizations or channels with with the FCC. The most important in this in this case is you can change the game only only with chosen a good a good antenna size for your.
For the deployment and one thing more that antennas were in the in the most cautious environments around the world. For example, if you have, if you are for example in Montana or maybe Wyoming.
I mean where where the wings very strong and the snow and the snow this very it's very hard the stars the stars snow where well the antenna the antenna has for example the random cover have the the stiff.
And and we can and we can work in the in the specific areas for example the laminum and the antennas make the antenna more slightly like has a you know and one thing very important the focus.
On the on the antenna, it's always, it's always working with the same game in all the band, right? Why we can't, we can achieve that we we we achieve that.
Working in the in this in the scenarios where the interference it's very high and we probably the focal point on the antenna where the eyespace they can get better results and make different.
Any link. Why? Because we understand you need to make this more reliable and we can and we can work to make reliable any link that you want to deploy inside of the United States or any place around the world.
While where's other other highlight on the net point antennas? Well in resume we help to reduce interference important that is very important to reduce density of the usage spectrum or nearly to other links.
Because with the focus in the antenna, we can achieve a better signal potential and the most important you going to get a better results with that point together with any radius and you can and you can improve the efficiency or or.
Any brand that you want to deploy and the most important with the energy, with the better signal equality and the better reflection and multi pack uses with this.
I don't know if you anyone have questions and answers, so we are ready to reserve your question and answers. So you don't forget you can you can write your answers here in the chat.
So.

Juliana Florez   38:54
David, I think we have a question. If the devices are in an isolated location, are they required to contact an AVC system? How does that work?

David Alvarez   38:58
OK.
OK, for for the deployment, yeah, you need to make the contact with the with the APC system, but it's very important that you can that you can check with the in the gear inside of the gear that the APC systems is going to begin for work for example I see.
This is very particular in the Tarana products and the and if I remember in the Cambium products you can deploy for example the antenna in any location. For example we're going to think.
I'm going to team deploy on Kentucky, right? But in Lexington and you install the antenna and then just install the radio together and you and you begin for main day.
To to make the scan on the on the frequencies, right. It's very important that that you can have deployed with the radio, the GPS. OK, with that you're going to have all the all the channels, all the channels and the frequencies.
All the frequencies available on the power that you can deploy. You don't need to make any contact to the FCC, only with your license that you have to deploy the antenna and then you have you have all the all the specter, all the specter.
They're free for work, but it's very important that you want to get better information about that. You can route to me directly and we can only say to you we want.
With one specialist of this and in this area, for example if you need a license or anything.

Juliana Florez   41:12
OK. I think we don't have more questions, so.
Thank you, David, for this webinar and thank you all for joining us today. Please stay tuned for upcoming sessions.

David Alvarez   41:23
Yeah, yeah.
Yeah, we have for example, we are, we are very excited to see you the next month for all the for all the ways in the in the United States. We're going to stay you know with Papaloosa this year. This is very important. You can be sitting net point and the booth 301.
And we we have so many, so many things to present to the market. For example we going to present the the new antennas for license band we going to we going to present the new products for high.
For high sorry for high high performance in six gigahertz and we're going to present to new products in the line on the six gigahertz for works in all the in all the wide band working in the frequencies range from 4.9.
Up to very important up to 7.2 gigahertz band. We're going to make this more easily and the most important we're going to help to your economy. So guys, you can contact us. This is my e-mail here.
Here david alvarez@arabaantennas.com dot X or my phone number I have. I have e-massage available so if you use WhatsApp or any order.
Or any other kind of service. We are ready to help you.
Oh, we don't hear you.

Juliana Florez   43:09
Sorry, sorry. Thank you. Thank you for for joining us and thank you everybody for joining this webinar today. Please stay tuned for oncoming sessions and have a great day.

David Alvarez   43:23
Thank you. I appreciate your time. Have a good one for everyone.

Juliana Florez   43:28
Thank you. Bye.

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