So here it is. My last big video for 2023. I hope you enjoyed the show this year😁 Like always I will do a small recap of 2023 regarding my videos, projects, release schedule and everything else involved. I also love to answer some of your questions. So feel free to comment here and maybe I will answer your question in the video😉See you soon
Hi ! An Idea for you: You could do a series in which people ask you some questions on your subreddit and you answer them just like Mehdi's LATITY videos.
Another option would be to move that new Wireless access point. Being against that wall and having it surrounded by conduit and furniture will affect its range too.
@@greatscottlab Love your Videos! You look like you live in a country with concrete walls, which usually is the problem. In North America, One router can usually cover a 2000-3000 sqft home decently. Actually, your problem would more likely be that your phone's wifi antenna cannot talk BACK to the router, confirming it received the wifi packets, as they are typically far worse than the router antennas themselves. If speed is not tooooo great concern and you've got a newer home, ever consider PowerLine? Something using the AV2 vs G.hn standard? They are encrypted, and can usually deliver a stable 100mbps in my experience, and having a mesh network can be quite neat, especially for IoT devices, since you can put them on a separate wifi to reduce congestion
@@greatscottlabThe problem is that it's an ISP provided box, they are usually cheaply made and lack many features that would speed up the Wi-Fi. I would consider disabling the built in Wi-Fi on this and purchasing an access point from a known manufacturer and placing it in a space where you use it most.
The actual improvement you are seeing is because you rotated the antenna 90 degrees. As you pointed out in your sketches an antenna radiates the signal to the side and not out of the top. Before you were basically relying on catching reflections while with the new antennas you are receiving the signal. And wherever possible you should make sure that the receiving antenna is parallel to your sender (for instance with WiFi sticks)
that's something that a lot of people don't know, it looks silly to bend the antennas in 45 degree increments, but if you actually look that the DB signal flat, standing and to the side there's a noticeable difference. A good tip is if you struggle with reception and just happen to have two phones, try putting the phones back to back, and rotating one of the phones 45 degrees, rotating the phone 90 degrees would be optimal if you knew where the antenna was, but pointing the phone towards it would help a whole lot more, I'm assuming you have no idea where the signal is therefor splitting the difference with 45 degree
The way you had your router hanging on the wall, the built-in 1/4 wave antenna was placed horizontally and it was directing its RF energy into the attic and cellar rather than into the room. Just mounting the router in a horizontal position (rather than hanging it on the wall) would provide you with better coverage.
@@user-jm8sy5ox2j those were antenna he made and wired in while the person you are replying to isnt likely to take their router apart to recreate the video
Watch out when you unplug the antenna when the router is operational: The built-in amplifier can be overloaded and die when the (normally 50ohm) load/impedance go to infinity. Especially true for internal antennas that are not expected to be removed
The first antenna (the supposed quarter eave half dipole) is not used for wiifi. Its the DECT antenna for the dect base station functionality of the router. You can see its next to the dialog sc14445 IC which is a fully inegrated DECT transciever.
I thought DECT was cordless phone handsets, why would it be in a wi-fi router? EDIT: I just looked up on line that we have limited use of DECT in North America with DECT 6.0. I didn't realize it was utilized more in other places.
@WJCTechyman DECT indeed is used for handsets. Fritzboxes (the router he owns) were quite popular as "all in one" devices, acting as a DECT-to-VOIP or DECT-to-POTS gateway for the telephony side of the service. DECT was/is super popular in europe, where interoperabilty between vendors was obligatory.. so you could potentially pair a handset of panasonic with a gigaset base for example (albeit potentially losing on advanced features). Keep in mind that DECT 6.0 is not compatible with european DECT as it uses different frequencies.
Best Solution: PoE-Powered Access-Points. Just place them where you need them (eg. where you have the most clients). Nice bonus being that when a new Standard comes out (like 6E) you can just move the old AP's to other rooms and move the new AP's in their place.
Having a better antenna might also get you into trouble. The maximum legal power is not the power out of the amplifier, but the EIRP. The EIRP takes into account the gain of the antenna (how much better it is) in addition to the power. For instance if you have a power of 10 mW and an antenna gain of 10, then your EIRP is 100 mW (the maximum for 2.4 GHz Wi-Fi). So increasing the gain of your antenna without reducing your transmitted power should still be illegal. It's actually logical, otherwise you could use a giant dish as Wi-Fi antenna and potentially jam any device in its aperture.
@@-never-gonna-give-you-up- Depends if it noticeably interferes with something. If it does, whoever is in charge of radio transmissions will send someone to find and deal with the issue. Otherwise it's just a jerk move to interfere with your neighbors WiFi, which is guaranteed to happen in an apartment building.
@tortex1 trust me, they can't find who is having a better wifi signal nor do they have the legal resources to access the building. Been blasting my wifi system for years now and no one said anything about it, perfect wifi everywhere, that's what i pay for, that's what i want.
Best solution (but a little inconvenient at first) is to move the wifi router to the centre of your home, perhaps in the ceiling cavity. Your devices will never be more than half the diagonal distance to a corner away from the router.
Based on his heatmap, the 5GHz connection won't work well at further side of bedroom and kitchen. Perhaps adding one more Access Point (with different channel configured) at another edge of his house would improve a lot more better signal, especially 5GHz
He's got a fiber connetion, and I'd guess that the connection ends right there where the router is located right now. Of course you *could* maybe extend that fiber optics cable to the center of the house, but then ... there's also the WAF to include in the calculation. :) (WAF=wife's acceptance factor)
@@haukewalden2840 honestly get a cheap fiber switch off the internet and use cat 6 cable to connect the "fiber run" to the "router". if murder was legal I would have killed the tech support at my ISP. I specifically complained about their routers NOT being able to support a continuous 1Gbps link. I asked them through out 5-7 emails "Can I switch the router to get better stability during high demand" "no, our routers are good take a speed test it should show 1Gbps, have you checked the wifi?" I ditched their piece of shit router for a very cheap fiber switch that has 1 fiber port in , and 2 Ethernet out, plugging that in to my Assus router solved all my issues, I can now continuously upload and download at 1Gbps for hours on end. The fact that anybody would bother with a "modem" when they are getting fiber straight to their home is ridiculous, current day ISP are operating in a LAN fashion, there's no special sauce behind their devices, if you can plug it in you get internet. I tried plugging in the fibber termination straight to my server and I got a IP and internet.
@@haukewalden2840it just make more sense to add more routers/access points. I have in my home using old isps routers and get 300mbps minimum pretty much everywhere.
Building antennas without an analyzer, especially at these frequencies can be difficult. Another thing you can try is to move the antennas to a better position with some good coax cable.
The lack of good, matched coax is most of the problem here. Hard to know what would be appropriate given the black-box nature of the router, but, you can probably infer that from the other components on the PCB. Really the best you can do is a half wave antenna that's a large enough diameter to accommodate the range of frequencies you're dealing with. That also makes building it a fair bit easier as there's more wiggle room. Really though, anything higher than 700mhz or so, and you're better off just buying a halfwave antenna and mounting it properly, and in the case of wifi, having multiple access points really solves the issues he's having very well.
@@edvardfranke Coax has loss, sure, but so does the air. Loss in coax is going to be less than loss in air, that's why cable TV is a thing. If you have to cover 100', but you have 50' of coax, it'll be better to run the signal over the coax and put the antenna 50' away from you, rather than 100'.
I built one of those "Russian" Wi-Fi beam antennas when I moved into a temporary apartment about a 1/4 mile from my in-law's house. My intention was to tap off their Wi-Fi network for internet services so I didn't have to pay an ISP to run fiber up to an apartment that I was going to leave in for a few months. It was about twice as long as the one in the video and made of sheet metal that I had cut out of an empty unused paint can. I then taped it on the end of a laundry pole and positioned it as high above my top floor balcony as I could. It worked well enough to read their SSID but not well enough for my laptop to connect to it. I think my laundry pole wasn't long enough to get the antenna over my building's roof ridge and that got in the way of the line-of-sight signal. But I proved that the concept was sound. It used to be fun to roam the streets with such an antenna looking for Wi-Fi stations that people didn't bother to lock, but today's routers pretty much now all come with WPA2 already configured.
Instead of additional routers or repeaters, you want to separate the router and access point functionality. You can place access points where you need them, while the router does packet routing, and can be placed anywhere. Several companies offer equipment like this; I use Ubiquiti. I have a lot of IoT (really LAN of Things); 150 devices on WiFi. One router (Edgerouter 6P), and 4 access points (UAP-AC-M) keeps everything humming along.
Are there antennas that are half directional that emit in half circle? You don't need wifi outside so with omnidirectional antenna a lot of energy goes nowhere
Yeah, was expecting that as well. Put a ground plane on the wall behind the router. Especially since it's in the corner , if you can put a ground plane behind the router and other wall you should see a 6dB bump.
For the last antenna, it would be cool to see its S11 measurements from a VNA. This would help see what the resonant frequencies are to confirm it was tuned just right. Use anything from a inexpensive LiteVNA64 to Rhodhe & Schwarz equipment.
I was also disappointed that he did not do the calculations himself. I made a yagi antenna a few years ago to get WiFi signal to a camera that was well outside the range of my router. They work well if implemented correctly. For what he was trying to do, such a directional antenna would not work well. The effective area/angle of the signal would be far too narrow to reach his full house. He could potentially improve his signal at his couch, but in turn would sacrifice coverage in the rest of his house. I hope to see a follow up video doing directional antennae justice.
Also the fact he basically used two conductors separated by dielectric as the antenna elements made it extra sus. No reason a Yagi antenna shouldn’t work if designed properly
Hi, as usual a great video, but being an IT guy I would strongly recommend separating router from the access point and build a small mesh setup. There are many available that are many ready solutions that aren't that expensive but will kill any "consumer" Wi-Fi router out there. I personally use Ubiquiti but as I said, there are many solutions. Hetamapping and meshing is a basic function for such solutions and believe me, having a great life-long support for a set of devices, single SSID for multi-bank networks, multiple vlans... I do know that it would not suit your video format, but check it out for home use :).
Fritzbox routers and repeaters support mesh without any hassle just plug them into the outlet and add the WiFi network and it will do it's thing. Setting up an Access-Point network is more of a hassle ✌️
@@leocompany Yes but they're generally crap at Wifi. I also have Fritzbox, and separate APs from Mikrotik. Wifi on Fritzbox is disabled. Lacks fine grained control anyway. And you can see in the tear down what garbage multi-band antennas they use.
@@leocompany Mesh topology is generally a bad idea, unless you have an Ethernet back haul for it. Otherwise, from my experience, it is mostly placebo, because you may be getting full bars on your phone, but speed and latency are rarely improved. In addition, some particular models can be driven to 30 to 36 dBm (1-4W) in the 2.4GHz band, and up to 28 dBm in the 5 GHz band, which at the very least can account for some losses because of bad antenna design.
Best is to use multiple WiFi access points throughout the house. Then use the isp as a modem/router. I have 5 WAP in my house. Two outside, one middle of basement and two at opposite ends of the house in the corner with reflectors.
There are not only limits to maximum transmit power, but also Effective radiated power, so you are also not allowed to simply hook up a directional antenna as that might raise your EIRP in that direction too high. Whilst using different antennas might feel good, afaik you might just kill your MIMO capabilities, crippling your speeds even though your signal strength is better because the communication falls back to less channels. And of course you can move the router to a better location with less things in the way like a more central location and an orientation which matches the antennas radiation pattern (though that is typically already good) These consumer routers are a good all-in-one-package housing the modem (to translate fibre to electrical), the access-point (the wifi-module) and internal services (routing, dns, ..) in a neat package, but this might not be desirable in all cases. You could place the modem (like your current router) where your fibre comes into the house and then run ethernet to a separate access-point in a more central location, or even have multiple access-points for better coverage. Without running wires, you can use mesh-APs, though they usually cost quite a bit more and are prone to interference and wireless limitations themselves (but usually work quite well in typical setups)
@@greatscottlabto make his post more simple in Europe acxording to SRD (short range device) directive which cover unlicensed frequency that are used for among others Wi-Fi you have limit of max power given in ERP (for example on 2.4GHz limit is 100mW ERP) and ERP is calculated as output power times gain of athenna (or in db outpit power of transmitter + anthenna gain). So if you want to stay legal you must lower output power of transmiter if you increase gain of anthenna, so you get nothing by changing antenna. Only way that it can be usful is if you have different transmit and recive antenna so you increse gain of receiving antenna. By the way in SRD frequency of 2.4GHz is listed on 2 places once as ISM where max ERP power is listed as 10mW and on other place for high speed data network (that part is relevant to Wi-Fi) with max ERP of 100mW (in USA ISM cover everything including Wi-Fi but they have different power limits and they do not use ERP but output power with correction for antenna gain).
There's also just a limit to how much increasing the access point's transmission power even helps. Even if you could get your phone to see the Wi-Fi network from really far away (or through lots of obstacles), it doesn't magically increase your phone's transmission power, and with Wi-Fi, communication needs to work both ways. And I agree about separate devices, I always like to have a separate modem (usually ISP provided), separate router, and separate access points. I moved about 6 months ago, and all I had to do is set the new ISP router to bridge mode (so that it essentially works only as a modem), and I didn't have to set my port forwards, etc. again, because those are all on my (separate) router. And a bit earlier, when my old router couldn't handle my new faster internet speed, I didn't have to change my access points.
@SamiKankaristo increasing power of transmitter do not do anything if you do not do on both sides, but increasing anthenna gain is enough only on one side, it increase radiate power (transition) and increase received power. But again, in Europe, with a single antenna for receiving and transferring, you will get nothing. With a higher gain antenna, you will be able to receive a signal from further devices, but your transmit distance will not change if you want to stay legal.
10:42 these antennas work, but they are very sensitive to assembly, inaccuracies greatly affect their operation. Antennas of this type were even used on the Soviet lunar rover
Yeah, and these antennas are not a good idea for indoor wifi. It's VERY directional. It's better suited when you have two antennas like that and they are communicating in a straight line, even kilometers away. Then you use your regular omnidirectional antennas to spread it around the house.
I've had about 5 dB improvement in this kind of situation by putting aluminium mesh a few centimetres behind the router. That way the signal interferes constructively with the forward transmitted signal and reflects back into your living space, and greatly lowers any signal towards neighbors. It doesn't sound like much, but 5 dB can make the difference between it working well and working badly. It's particularly good if you're using wireless bridging because you can get 5 dB gain at each end.
Well, that's what that Yagi antenna he was building is supposed to do. Spacing of the elements is important and frequency-dependent. If you're not careful, it will be worse.
9:52 Yagi-Uda antenna driven element(driven element usually is just a dipole antenna) needs to be insulated from the rest of the elements. Try building antenna from 2mm metal rods attached to 10mm PVC pipe with hot glue. Also, yagi antennas have very high directivity and are narrowband try checking signal strenght with 0, 1, 2 and 3 directors with antennas elements both being verically and horizontally and with using different channels.
@@norm1124 I don't think the material is flat enough either, but this is only from my short experience building a test antenna where I got much better results using flatter surfaces. All angles are inefficiencies
@veden3383 Agree, that rough angled shapes on this frequencies bring its effectiveness to 0. I had a great improvement on 2100MHz for LTE modem with the same antenna but built more precisely from a 1mm flat roof-metal. The elements were screwed to the metal rod with nuts as well - it does not matter.
You can build a yagi without isolating the driven element, if you connect to it via a gamma match. It's trickier to adjust in the SHF range, especially without proper measuring equipment, but it can be done.
I don't know if it's the same in Germany, but in the Czech Republic the transmission power should be measured as radiated power (including antenna gain). Wifi power should be 20dB after the antenna, not before. So if I'm not mistaken, It's still illegal because you're changing the antenna gain...
The best play is always to strategically place access points, but if you dont have a lot of Ethernet already ran through the walls this is the next best thing :)
Another option is a mesh network, where the access points are wirelessly connected together. But ethernet is always more reliable and faster than wireless.
@@GODAXEN, that's true, but I was talking about an alternative to running ethernet cables (or having them already installed, like in the comment I was replying to).
I’d be interested to see if laying the router down flat would make any difference given that the simple antenna would radiate outwards across the flat instead of up and down. Also, consider moving the wifi to the centre of your flat. :)
Thanks for the video! To put it bluntly: the measure that really helps the most are repeaters that are connected to the router via cable. Connecting external directional antennas is prohibited by law in most countries. The idea with amplifiers cannot work because you would have to amplify both directions. And then unfortunately there are a lot of fake videos about supposedly great WiFi antennas that don't work. In order to make a functioning antenna, you have to take a few more things into account anyway. In your case, a metal foil on the wall behind the router could help a little. On the one hand, this directs some transmission energy towards your apartment. And on the other hand, your neighbors' WiFi signals are somewhat shielded, which leads to a better signal-to-noise ratio and thus improves your uplink connection. By the way, the latter is usually underestimated.
I had the same problem for a long time but everything changed after 802.11 k/v/r became available in the consumer grade hardware. This technology allows devices to roam between APs. Works like a charm and roaming so fast that it happens without noticeable connection degradation. Personally I have some not very expensive Zyxel APs and can highly recommend them but many other manufacturers have this too.
If I can't use the router software to 'improve' the signal (via changing channels to less crowded ones, etc) then I block off the signal going to areas with use of aluminium foil. An added benefit is that you can shape the foil sheets into vaguely parabolic shapes, enabling the direction the wifi signal to where it is needed. Old-school
I mangled my comment a bit, but glad you get it. Additionally, using foil to block off un-needed areas, and at the same time bounce signal where needed, is great - but you can also utilise line-of-sight by bouncing signal off sheets of foil placed like mirrors around the apartment@@greatscottlab
Since you say that’s the only spot to mount it, the most logical option would be to disable wifi on the ISP router and run ethernet to central access points on each floor. It definitely doesn’t have much family approval factor, having ethernet wires around the house, but it is a much better than mesh wifi, as that again depends on wifi signal strength to hop APs. My house is also built with thick concrete walls and 3 floors with a router on each. Took an afternoon to neatly route the additional cables along the house exterior and now it’s blissful. I get consistent 5ghz wifi everywhere. And as a bonus, I have 3 additional 1Gbps ethernet ports on the other floors for anything which might require a wire
Finally a wifi improvement video that isn't all just in the routers settings in the browser!!! Thank you for the inspiration for my next electronics project!! Great stuff GreatScott!
There are some routers and access points that you can connect to using telnet and set to regional setting = test_mode , , therefore there are no limits on transmit power.
The big problem I noticed with the antenna is that you need to isolate the copper elements from the rod, otherwise it will seriously affect your performance. That's why Yagi antenna elements are insulated from everything else (except the feed line).
Move it to the ceiling. Higher is better so i learned. Also there is a printable wifi booster antenna that actually really works good up to 100ft. I totally vouch for it.
You've got a million options here to improve the WiFi. 1. Ask your ISP to move the optical fiber to an inner wall on the house, preferably somewhere in the middle of the floor-plan instead of the far wall. 2. If they say no, look into getting an optical fiber male to female extension and move the Fritzbox yourself to the middle of the floor-plan. 3. Put the Fritzebox into Full Bridge mode, and use a decent router with REAL antennas like a Netgear RAXE500. 4. Do the same as 3, but use a long Ethernet cable, and install a new router in the middle of the floor-plan with the Fritzbox in Full Bridge mode.
Glad you mentioned mesh routers at the end. I like you, used to mess with amps and antennas to increase throughput. However, ever since getting the EERO mesh modules, I'm blown away at their performance. Especially using the LAN jack on a mesh pod. The speed is amazing.
I'm using TP-Link Deco mesh setups at home, and work, so I can monitor them remotely through their app, and it's so much better than dealing with crazy stupid extended antennas on a router, and WiFi range extenders where you have you end up having to connect to several different networks if you have a large home going from one end to the other, so now the only WiFi extender I have is in my backyard shop that's that's a repurposed TP-Link router, as I did not want to have to buy another Deco pod, as it's not used as much, and it has a USB port, so I can keep a fan under it for cooling as I don't run my shop AC/heating when I'm not out there.
you ideally want your router placement to be in the center of the area you want covered, and preferably elevated higher so less obstructions. And those Yagi style antenna that you can DIY are typically better suited for long range connectivity, provided you have line of sight and the Fresnel zone is not too obstructed. I've tried my hand at making various long range antennae (yagi style, helical style, cantenna, dishes, pots, colanders, etc lots of things can make interesting antenna) for use in a local Wireless User Group, most had a pretty solid connection going 8KM to a local node. Another good example for those antenna are to link buildings on your property that you cant run a cable to, I took the lazy approach for my mom's cottage and put outdoor mikrotik radios on the buildings. Nice video, definitely at least see to the router placement, or if you cant move it then disable it and put a better access point centrally with a cable to it for best results
@@alttabby3633 Access points belong to the ceilings for best results rather then buried behind cabinets or in the service entrance room in the _corner of the house_ (wtf?). The problem is - no average house owner would place them where they would perform best. And after Scott announced that he was going to build a new house to live in, I thought "well, as a so-called 'electronics enthusiast' he will surely remember to plan a proper network". But I couldn't be more wrong and to my mind he completely debunked himself with that. Even the attempts to improve connectivity in the video show that his knowledge is stuck at the level of 802.11g, totally ignoring modern WiFi properties such as MIMO. No Rohde & Schwartz spectrum analyzer will help in this case. Basically his improvised antenna design worked against the AP trying to re-balance its MIMO channels in order to compensate antenna mismatches. And besides the legal argument, the description of the first idea - simply increasing RF power - totally lacked the most simple counterargument: what sense would it make to shoot the mobile device with 40W to overcome two stone walls with the phone still only answering with its 100 mW transmitter?
I use a metal plate behind the router (pointing to the direction i want) and works fine. The idea is that the waves bounce to the metal plate and increase the strength of the signal. You can also use this to block or weaken the signal into a direction, for example to the outside world.
Kreosan's antenna (Yagi) must have worked better if the router were outside that room and even provided better signal strength since the Line of sight seems to be clear to the hall based on the house plan. But i suppose moving the router is not a great idea and the other antennas have already redeemed themselves.The Yagi might possibly work better if you are trying to connect to a network 2 houses away in the sky. But with the walls, it seems to hinder its capability. For fun it would've been nice if you could have done a test with both antenna types at the roof and see which one increases the range. But alas, that is not the motive behind the video. Great video as usual. 👍
The biggest problem with a Yagi is that it has at most 30 degrees of effective radiation from where it's pointed. So in a square building, you definitely won't get the best signal on the side corners. That said, I suspect that RaOne is correct about shorting the plates. There's a really cheap Yagi I saw on Amazon which uses nylon male-female screw spacers to link each plate. No idea if it works, but it definitely has each plate insulated. Finally, you can find professionally made 2-5GHz Yagi antennas out there, which might be a major improvement over the DIY one.
Hey Scott, Love your content!... You know, that construction for the directional antena is actually not optimal. I think this is called Yagi antena and those can be constructed in different ways but the "front" elements and the final bigger "Reflector" need to be isolated from the connected element... I'm no expert, but I followed the mesurements of an online calculator and built an antena with nylon standoffs and some virgin copper pcbs cut in circles... And I reached almost 200m in a single direction! I think you should try many different types of antenas, it could be a good future video... here some types: Cantenna (AKA horn antenna) (Built with a can and a small coper wire), Yagi (just like the one you built but isolated), bowtie (looks like it can be easily made with a bit of copper wire), BiQuad, Dipole, Helical ... I tried a Helical before, but it was a bit complicated for me...
Regarding 8:04, even harmonics of antennas actually present significantly higher characteristic impedances than 3rd order harmonics, meaning you can improve the signal even more by making a sort of fan dipole design
The 100mW is the maximum power that is being sent out of the antenna. So if you using an antenna that has a 4db instead of a 2db antenna that you’re still in violation. Nevertheless great video! And would like to see how difficult it would be to amplify the signal and its results.
It varies by country, but in the US the FCC regulation is quite a bit more than 100mW, and more complicated. - maximum of 1 watt coming out of the transmitter - maximum of 4 watts EIRP, which accounts for the gain of the antenna (in direction of highest gain) - there's also an for point-to-point connections; they can go all the way up to 158 watts EIRP (52 dBm), but require a highly-directional antenna providing the majority of that effective power. In any case, for non-p2p installations, it's not necessarily illegal to use an amplifier, so long as the amplifier isn't above 1W, and the antenna remains omnidirectional. But an RF amplifier can cause other legal issues, like amplifying spurious signals below the legal limit in the original transmitter to well above the legal limit. More importantly, it's often pointless to increase the power of the AP without also increasing the power of all of the devices transmitting back to it; increasing TX doesn't help RX, and wifi is bidirectional.
7:44 Those antennas seem to be directional, as indicated by the “6dBi” in the product title. That would explain the 5-10 dBm improvement, and if the 2.4 GHz antenna was wrongly oriented, also its bad performance (or it could just be a bad antenna on that frequency, which would be par for the course from a 2€ antenna from Aliexpress anyways). In any case, the best solution to this problem is to run cables and place APs in the right spots. We tried solving this problem many times with repeaters and the like, but it was all very unstable. In the end we had cables ran (on the outside due to the construction of the building), and it works like a charm.
For best performance, a 1/4 wavelength antenna needs a ground plane to present as a mirror, not so different than when you put a 1/4 wave antenna ontop of a mirror visually the antenna and mirror together look like and operate like a 1/2 wavelength antenna. With the largest visual profile of the antenna and and reflection in ground plane being the same angle with the largest db gain.
I live in a small (36m2) apartment, and great wifi coverage from a single AP is one of the good things about it among the many bad things (like a lack of space for a proper desk, let alone a lab) :) I use a Ubiquiti UniFi AC PRO access point running at 17 and 20 dBm for 2.4 GHz and 5 GHz respectively. However for your house, I would recommend turning off wifi in that FritzBox, and placing 2-3 separate APs across the house, all wired back to the router (or a switch, i.e. don't use mesh). The TP-Link EAP610 and EAP615 are great value for money, and can be used without a controller (but I recommend one if you're usinf multiple units).
Personnally i think since you use a Fritz!Box you could just use one of their repeaters they are great and use mesh. Also there are the Fritztender antennas which you could try.
One gotcha is the devices being used on wifi. I could crank up my power to 100% and transmit pretty long distances. A low powered device such as an iPhone will pick up the wifi but does not have enough power to transmit back reliably. High power will also inject distortion into the transmitted signal. Proper wifi design is to transmit using low power and have a sufficient amount of access points. This way you get a reliable wifi network with consistent throughput over the entire area.
Hello, many years ago I tried several DIY alternatives but the only ones that really worked for me until today are the Panel antennas, try and see and if purchased, much better. Thank you for your videos, special greetings from Honduras.
You should also consider testing with two dipole antennas (like you already have in this video) but with them being perpendicular at a 90 degree angle as the two radios experience high crosstalk when they both are in the same configuration. Since the router has 2 antennas but the physical world has 3 axis (x,y,z), you may have to experiment with 3 different placement configurations of the two antennas.
No, don't do this, the radio chipset is 802.11AX and has MIMO where all antennas are used together to increase range and throughput, he should in fact add the third antenna (the router has three antennas, the third one is not DECT) to increase performance that for some reason he left out.
The word you're looking for is 'coupling', and yes, spacing the antennas at least 1/2 wavelength apart would solve many of the issues here. Ideally, they'd be stacked vertically or a full wavelength apart.
@@troycording you got any references for backing this claim? Consider sharing those. I checked in a bunch of places and all of them advocate for having the antenna at different angles. Finally, if the router has 3 antennas, then all 3 should be used. Completely agree with that.
@@imdnxtaccording to router guide i got with ASUS AC59U it says that best position is with all antenna straight and up, parallel to eachother, perpendicular to router body. And i checked this claim with Netgear 3 antena router and having all of them up is the best. Rotating them only hurt the signal. From couple of db up to 10. And speeds were greatly reduced.
Mounting your WiFi AP near the ceiling sometimes helps as typically there are less objects/furniture to absorb or reflect signals compared to counter/ground level. Another thing to consider is that a walls apparent thickness increases as the beam angle moves away from perpendicular. I also find that manual channel allocation can be handy, especially if you can split you WiFi up onto different Access Points or networks. I use this for WiFi mesh devices as the high amount of traffic can interfere with regular WiFi use.
The ''hack'' antenna is no good since all is connected together. I built a 3D printed Yagi antenna with copper wires as concentrators and it's pretty impressive !
Thanks for this video. I always wonder how much impact the antenna orientation has on access points with external antennas. As yours has originally internal antennas and is wall mounted i wonder if there is any difference by rotating the router by 90 degrees vertically and/or horizontally?
Man i like your videos because you are explaining a everything from the beginning till the end, and that something amazing you can understand it very clearly
A couple things to consider. 1. Max EIRP is inclusive of antenna gain, so you cannot add just any antenna to a wireless setup as you could be operating outside the legal limit. In New Zealand, the legal limit for 2.4GHz is 36dBm (4 Watts). 2. You can sacrifice bandwidth for range. By decreasing the channel bandwidth from 40MHz to 20MHz you will get better range due to receiver sensitivity. 3. I've seen advice to try a mesh setup but one thing to remember is you are again sacrificing bandwidth for range. Every hop in a mesh network divides the throughput in half. 4. Antenna arrangement is important. Each antenna has a radiating pattern. If it is a MIMO device, both antennas work together to provide the throughput and if different antenna are used on each port (like what you tried in your video) you will get reduced performance because the transceivers are using spatial multiplexing. If you want to use different antennas, you need to set the transceiver into spatial diversity (if it is supported). 5. For OFDM signals, at max transmit power, high MCS rates are not achievable and usually require a 6-7 dB of power backoff to achieve high modulation rates. 6. Consider Fresnel zone clearance. All the best.
WARNING! Do not play with antennas on your router, unless you know what you are doing, or you can easily burn your transmitter, and pretty much won't get any wifi, when it happens. Use this video only for educational purposes.
One of the challenges, as well as avoiding breaking rules by boosting radiated power, is you also have to improve receive sensitivity, otherwise the receiving device hears the signal from the router but the router never properly hears the reply. Of course, the receiving device also needs to increase its transmit power. Perhaps mesh (as you hinted to) or even powerline extenders (if these devices are reliable now).
Here is a suggestion: Turn off the wifi functionality of your router and get a dedicated wifi access point such as the one from the Ubiquiti lineup. It alone will definitely improve your wifi experience.
Another thing to remember - sometimes, more power isn't better. If you're having issues and turning it up doesn't help, try turning it down. Signal reflection becomes a problem at higher power levels.
You should trash that entire Fritzbox and replace it with a fiber router from ubiquiti or mikrotik. Then add some access points. Those frizboxes are one of the worst things in existance.
The other issue with transmitting above legal limits (100mW or 200mW) is the client device might now "hear" the transmitter but won't be strong enough to reply back. This makes everything slower in both directions. High-gain antennas are also a bad idea because the signal is now beamed rather than omni-directional, so you can create more problems without realizing it. The only good solutions for home are (a) mesh wireless networking or (b) wired network with multiple access points.
A directional antenna is the right thing for this application, blame the ISP for bringing the fiber to the wall and no further. Now if the router is near the middle of the area as it ideally should be, a directional antenna will make things better in one direction and worse in another.
Yeah, highly directional antennas are uncommon for the hotspot (because usually devices should connect from multiple directions), more common for clients, but obviously less useful for handhelds (even though there are inductive coupler/cell phone, but I've never tried them). One exception is these ~7dBi long monopole/whip antennas because they are still fairly omnidirectional as their radiation pattern is torus shaped. This could be useful for increasing gain within a single floor and reducing the interference with other floors. However, in a MIMO setting you'd get correlated signals if you orient all monopoles vertically. But with some slight variation orientation or extension cables you may still get a somewhat decorrelated signals such that it is still worth it. I have never experimented with that though. Annoyingly not all vendors and drivers provide detailed MIMO performance information to be able to conduct such experiments.
I remember back in 2005-2006 being desperate to get wifi to work better in my parent’s house, i ended up buying several small antennas and even building a pringles can design I had found online. Nothing worked and no matter what store I went to, nobody had ever heard of the idea of a signal repeater for wifi. It was ridiculous. Glad things are so much better nowadays.
I’d go for a wifi6 mesh network. You can hard wire as many of the nodes as possible with 2.5G/10G (once needed) and PoE. That being said this video in it’s own is great!
Really neat homade booster! Better to just get a fast router and mount it at a location visible to most places. I chose my ceiling in the center and of my house mounted cables to the ceiling... perfect. Also make sure you arent on similar channels to neighbors. Higher noise on a channel means worse ping
Yagi and other types of the same kind work really well when the distance is an obstructed >1km long distance. A friend of mine built one during university times to get wifi connectivity from the university and his house which was on a hill and had direct vision to his faculty. It worked very well after about 6 months of trial and error!
I had similar issues, so I started reading how different characteristics affect Wi-Fi signal. The best thing to do is to get a router with high transmission power, low signal attenuation and number of chains (this is related to the number of devices that can connect to the router at the same time). From the ones, that I found only two were covering those criteria well - MikroTik and Linksys (Cisco). The budget option with most features - LTE, firewall, SMTP, FTP, NTP and so on; was the MikroTik hAP AC Lite. Now in your case, you might consider something a little bit more modern with meshing, just so you can increase the coverage and reduce the noise.
Ok, try this Scott. Keep the router where it is and use two sma extension cables (shielded) to raise the antennas higher. Say 1.75 to 2.25 meters above the floor. If you use a small metal angle bracket, it will give you a ground plane. I would recommend at least half the antenna length for distance from the wall. I.e 6 cm ant 3 cm spacing. Please note, i suggest this as it has worked for me in similar situations. Results will vary. Good luck. And happy holidays, mate.
Reminds me of moving into an apartment without internet back in 2007. I bought a directional antenna that made it possible to access my neighbor's open wifi from a significant distance. It wasn't perfect, but at least I had internet access at all.
Thanks for the video showing real-world WiFi reception. I liked that you included the DIY directional antenna, but I wish that you'd included a more proven directional antenna as well. It could have been DIY as well, but inexpensive options are available on AE or TMU. You don't want some 24dBi long-range model in your house as they create spot beams, but perhaps a 6-10dB model to shoot diagonally as you did with the DIY disk antenna. I realize that we won't see another video about this, but an established design with
Really interesting indeed, dude! Thanks for all the information! 😃 But yeah, there are people who make their own FPV antennas! It's a pretty deep rabbit hole to go through, but they swear it's worth it! Go figure. 😬 Anyway, stay safe there with your family! 🖖😊 And happy holidays!
A waveguide antenna (cantenna) seems to work pretty well and is easy to construct. If you want to cheat, a third party AP such as unifi UAP would also offer quite an improvement.
Oh, my dear friend, microwave RF is pure black magic wizardry. On these frequencies, minor imperfections in any antennae will greatly affect the signal. If you want to put this model to the test, you will need to craft it with great precision, to the millimeter. Keep up with the good work!
Not really wizardry, but a range where precision and very thoughtful execution is necessary, as small parasitic inductance and capacitance matter in this range - e.g 10th of a mm differences in length, his "antenna holder" made out a metal clamp or the sharp edges of his cutouts..
@@salat "Wizardry" and "black magic" are common words to describe microwave RF within the community. CuriousMarc is always repeating that in his series about the Apollo program. For me, the best example for this are the so called 'hairpin filters'. A passive RF filter made entirely of PCB vias, without any other component. In these frequencies, as you pointed, conductive parts start behaving like components depending on their arrangement. Of course there is no wizardry in it as magic isn't real. Now, when it comes to his soldering skills, why would that matter that much? Most of manual soldering is only for prototyping anyway, he needs to be good with the theory and architecture, soldering is really up to the manufacturing plants to master. That being said, I'm quite proud of my soldering myself. Peace!
A biquad is easy to make and works well. I knocked one up out of bent pieces of the solid core house wiring type wire and an un-etched piece of pcb material.
Great video! The Fritz!Box is one of the best routers I owned, tough wifi has it's limits...in my parents house I've installed the router on the middle floor, and added one repeater on the first and top floor. If you want good coverage, this is the way to go, without much hassle and a reasonable expense. Btw the Fritz router has a very good coverage (mine is the 7530), to be fair, the signal is pretty good on the last floor, only on the first floor where walls are more "comolicated" is really required.
I built my system with Mikrotik system. I have 3 AP's that are all PoE enabled and the router itself (which is very small) is located in my electrical cabinet where the ethernet cabling and fiber to the outside world are as well. Their CAPsMAN works very well even if at first it was a bit confusing to set up and all the AP's work as a mesh. AP's are small, low energy and I've just dotted them around my apartment so each room has coverage and because they're all PoE, they do not require bu one Ethernet cable that can be easily hidden away with cable trunking or using the CAT5e that's already within the walls of the apartment. I have 2 small 2.4ghz AP's for general usage and coverage and one 5Ghz/2.4Ghz AP It was cheap, looks very nice with proper installation and has worked very well :)
Oh, and you can try the aluminum dish trick, it works really well in cases like yours, let us know the final setting, these are important matters, particular to each house layout.
I recently replaced my old Wifi router. The new one came highly recommended, as any device one buys on Amazon these days is. This one somehow fully reaches every former Wifi hole in the house, upstairs and down. It has six vertical antennas and the accompanying literature says it chooses them in pairs to transmit directionally to each user. Appears to work perfectly. I've been an amateur antenna enthusiast for ages and I understand how it could do these things um... theoretically, but simultaneously interact with transceivers throughout the house? That's got to be magic.
As already mentioned, the ERP (Effective Radiated Power) is a thing to watch out for. But the power levels used are low enough to not get you in real trouble, even if you are going 'way beyond' what is allowed ;-) But the antenna you used needs a ground plane to have the best effect and you don't want the taped on the side of your Fritz!Box like that. We use the same (new) Fritz!Box in our office and I noticed that the coverage highly depends on the channel used. You may want to try different channel settings in your box to see if you can improve the coverage even more.
There are plenty of people who play with magnetrons and they don't get in trouble. I also did some experiments at limited power like lighting up some fluorescent lamps.
Antenna designer here. You can't simply measure the physical length because there are electrical wavelengths which very depending on the type of metal used as an antenna. Antennas are radiated and measured with a network spectrum analyzer that plots a smith chart to characterize them. I get this is probably beyond or outside the scope of your video but for the sake of completeness figured I'd chime in.
I have used 12/13 cm bands for many years. Set dipoles with a reflector and one director in the open corner of each room and hall. Passive reflectors work well.
That older fritzbox router is pretty good device, one of the best you could have at the time in Ireland. It is very stable, no glitches, only downside is it only supports 2.4Ghz. I still use it, because any other I had from network providers sucked big time.
What you want is a colinear antenna. They're simple to build and have omnidirectional gain in the horizontal plane. Basically the RF field looks like a squished toroid shape. However, as someone else mentioned, if you want to stay legal then you need to be careful about not only the transmit power but also the gain of the antenna.
Part of my job is fixing network issues in peoples homes so I've gained some experience over the years. Upgrading the antennas is something I've tried around 10 years ago and it *does* work, however it seems that it only makes a difference when you have line of sight to the access point. As soon as there are any objects and ofc walls in the way you can can just as well stick to the original antennas. they work just as good or most of the time better than what you could come up with. The easiest advice I can give everyone is to place the Router up high in the room and do not mount it on a wall. you could build a little shelf on the wall for it to sit on. the goal is to make the radio waves travel through the fewest objects possible. Also place it so the radio waves don't have to travel across an entire wall but instead mostly straight through it. you can yield around 10-30% better reception that way. but in the end... even the best router will not be able to provide good wifi connections behind 2-3 walls... so you need to place another access point in your home. If you can find any way to do it... please get an ethernet cable to it. you can place your next access point further away from the main one and it will not loose bandwith that way. If you have to work with WiFi repeater... don't use too many of them. just get a proper one (Tri-band if possible) and go from there. yes they can get expensive but it doesn't help to place a lot of junk in your rooms that doesn't fit your routers wifi standard or antenna configuration. do not place it too far away from the main router. If the connection to the repeater is weak the bandwith will go down significantly.
This breaks my heart!: 1) Antenna polarisation: 2 antennas = dual polarity - having both antennae parallel to each other will almost half the throughput 2) Antenna directionality: using directional antennae will reduce reflections and multipath, which are important for MIMO, reducing throughput. 3) TX Power: I cannot stress this enough; Increasing TX power does next to NOTHING. the clients TX power is limited, coverge does not increase by increasing the AP TX power (of course download and upload not considered in this part, but ther are many more reasons to limit AP TX power) 4) Antenna location: avoid going through walls and place the Antenna centrally - for example in the middle of the floor, easily visiable to each doorway (interior doors are usually low density and allow Wifi RF to pass) - imagine the antenna like a lightbulb; if you can see the light with the doors open, you are getting signal. 5) Antenna aperture: the more of the antenna element you can see, the better the signal - it's like the wire is a solar panel - the more of it exposed, the more signal. IMHO, points 1, 4 and 5 are the most important. Go make changes and tell me it's not better.
It looks like the company that makes your router also sells Powerline Mesh devices. I'd suggest looking at that to deal with the weak spots in your house. European homes are built differently than homes in North America. It's not surprising that the Wireless signal doesn't get that far. I'm honestly envious of the options in Europe for this type of stuff. It's easier to buy here now, but at double the price it seems.
So here it is. My last big video for 2023. I hope you enjoyed the show this year😁 Like always I will do a small recap of 2023 regarding my videos, projects, release schedule and everything else involved. I also love to answer some of your questions. So feel free to comment here and maybe I will answer your question in the video😉See you soon
How did some people comment 8 days ago? The video was published just now
Long waited project, I have seen that antenna years ago on Russian video
Hi ! An Idea for you: You could do a series in which people ask you some questions on your subreddit and you answer them just like Mehdi's LATITY videos.
patron get early access @@techwith_tj
ruclips.net/video/mO43EgowSoA/видео.htmlsi=8ZqVpPGwwcgL4aaF
Another option would be to move that new Wireless access point. Being against that wall and having it surrounded by conduit and furniture will affect its range too.
True. But sadly this is the only available spot to mount it.
@@greatscottlab Love your Videos! You look like you live in a country with concrete walls, which usually is the problem. In North America, One router can usually cover a 2000-3000 sqft home decently.
Actually, your problem would more likely be that your phone's wifi antenna cannot talk BACK to the router, confirming it received the wifi packets, as they are typically far worse than the router antennas themselves.
If speed is not tooooo great concern and you've got a newer home, ever consider PowerLine? Something using the AV2 vs G.hn standard? They are encrypted, and can usually deliver a stable 100mbps in my experience, and having a mesh network can be quite neat, especially for IoT devices, since you can put them on a separate wifi to reduce congestion
@@greatscottlabThe problem is that it's an ISP provided box, they are usually cheaply made and lack many features that would speed up the Wi-Fi. I would consider disabling the built in Wi-Fi on this and purchasing an access point from a known manufacturer and placing it in a space where you use it most.
@@greatscottlab some have the ability to create a mesh network that will still improve performance
@@kreuner11In this case, that's not true. These routers have many user-accessible features, such as a business WireGuard VPN server
The actual improvement you are seeing is because you rotated the antenna 90 degrees. As you pointed out in your sketches an antenna radiates the signal to the side and not out of the top. Before you were basically relying on catching reflections while with the new antennas you are receiving the signal. And wherever possible you should make sure that the receiving antenna is parallel to your sender (for instance with WiFi sticks)
I would also question the choice of different antennas. AFAIK newer 5GHz routers often use MIMO and I would guess that might degrade in performance.
that's something that a lot of people don't know, it looks silly to bend the antennas in 45 degree increments, but if you actually look that the DB signal flat, standing and to the side there's a noticeable difference.
A good tip is if you struggle with reception and just happen to have two phones, try putting the phones back to back, and rotating one of the phones 45 degrees, rotating the phone 90 degrees would be optimal if you knew where the antenna was, but pointing the phone towards it would help a whole lot more, I'm assuming you have no idea where the signal is therefor splitting the difference with 45 degree
The way you had your router hanging on the wall, the built-in 1/4 wave antenna was placed horizontally and it was directing its RF energy into the attic and cellar rather than into the room.
Just mounting the router in a horizontal position (rather than hanging it on the wall) would provide you with better coverage.
Or simply orienting the antennas at a 45 degree angle can improve coverage too.
@@BillAnt you can't. they're built into the router.
@@sakura_x64then what did I see him removing from the router during the video? It sure looked like the router antennas...
@@user-jm8sy5ox2j those were antenna he made and wired in while the person you are replying to isnt likely to take their router apart to recreate the video
Wouldn’t it be possible to put the router on a shed rather than flat to the wall?
Watch out when you unplug the antenna when the router is operational: The built-in amplifier can be overloaded and die when the (normally 50ohm) load/impedance go to infinity. Especially true for internal antennas that are not expected to be removed
The first antenna (the supposed quarter eave half dipole) is not used for wiifi. Its the DECT antenna for the dect base station functionality of the router. You can see its next to the dialog sc14445 IC which is a fully inegrated DECT transciever.
I thought DECT was cordless phone handsets, why would it be in a wi-fi router? EDIT: I just looked up on line that we have limited use of DECT in North America with DECT 6.0. I didn't realize it was utilized more in other places.
@WJCTechyman DECT indeed is used for handsets. Fritzboxes (the router he owns) were quite popular as "all in one" devices, acting as a DECT-to-VOIP or DECT-to-POTS gateway for the telephony side of the service. DECT was/is super popular in europe, where interoperabilty between vendors was obligatory.. so you could potentially pair a handset of panasonic with a gigaset base for example (albeit potentially losing on advanced features). Keep in mind that DECT 6.0 is not compatible with european DECT as it uses different frequencies.
Best Solution: PoE-Powered Access-Points. Just place them where you need them (eg. where you have the most clients). Nice bonus being that when a new Standard comes out (like 6E) you can just move the old AP's to other rooms and move the new AP's in their place.
Ideally, centrally managed soho ones, like tp-link omada or ubiquity, with 6e or 7.
Having a better antenna might also get you into trouble. The maximum legal power is not the power out of the amplifier, but the EIRP. The EIRP takes into account the gain of the antenna (how much better it is) in addition to the power. For instance if you have a power of 10 mW and an antenna gain of 10, then your EIRP is 100 mW (the maximum for 2.4 GHz Wi-Fi). So increasing the gain of your antenna without reducing your transmitted power should still be illegal. It's actually logical, otherwise you could use a giant dish as Wi-Fi antenna and potentially jam any device in its aperture.
Thanks for the feedback. Will keep that in mind :-)
Not like they will check or something 😂😂😂
@@-never-gonna-give-you-up- Depends if it noticeably interferes with something. If it does, whoever is in charge of radio transmissions will send someone to find and deal with the issue. Otherwise it's just a jerk move to interfere with your neighbors WiFi, which is guaranteed to happen in an apartment building.
@tortex1 trust me, they can't find who is having a better wifi signal nor do they have the legal resources to access the building.
Been blasting my wifi system for years now and no one said anything about it, perfect wifi everywhere, that's what i pay for, that's what i want.
Ham operator here. it is INCREADABLY unlikely to boost that signal with any antenna enough to cause any significant interference.
Best solution (but a little inconvenient at first) is to move the wifi router to the centre of your home, perhaps in the ceiling cavity. Your devices will never be more than half the diagonal distance to a corner away from the router.
Based on his heatmap, the 5GHz connection won't work well at further side of bedroom and kitchen. Perhaps adding one more Access Point (with different channel configured) at another edge of his house would improve a lot more better signal, especially 5GHz
He's got a fiber connetion, and I'd guess that the connection ends right there where the router is located right now. Of course you *could* maybe extend that fiber optics cable to the center of the house, but then ... there's also the WAF to include in the calculation. :)
(WAF=wife's acceptance factor)
@@haukewalden2840 well... my WAF always below expected :/
@@haukewalden2840 honestly get a cheap fiber switch off the internet and use cat 6 cable to connect the "fiber run" to the "router".
if murder was legal I would have killed the tech support at my ISP.
I specifically complained about their routers NOT being able to support a continuous 1Gbps link.
I asked them through out 5-7 emails "Can I switch the router to get better stability during high demand"
"no, our routers are good take a speed test it should show 1Gbps, have you checked the wifi?"
I ditched their piece of shit router for a very cheap fiber switch that has 1 fiber port in , and 2 Ethernet out, plugging that in to my Assus router solved all my issues, I can now continuously upload and download at 1Gbps for hours on end.
The fact that anybody would bother with a "modem" when they are getting fiber straight to their home is ridiculous,
current day ISP are operating in a LAN fashion, there's no special sauce behind their devices, if you can plug it in you get internet.
I tried plugging in the fibber termination straight to my server and I got a IP and internet.
@@haukewalden2840it just make more sense to add more routers/access points. I have in my home using old isps routers and get 300mbps minimum pretty much everywhere.
Building antennas without an analyzer, especially at these frequencies can be difficult. Another thing you can try is to move the antennas to a better position with some good coax cable.
The lack of good, matched coax is most of the problem here. Hard to know what would be appropriate given the black-box nature of the router, but, you can probably infer that from the other components on the PCB.
Really the best you can do is a half wave antenna that's a large enough diameter to accommodate the range of frequencies you're dealing with. That also makes building it a fair bit easier as there's more wiggle room.
Really though, anything higher than 700mhz or so, and you're better off just buying a halfwave antenna and mounting it properly, and in the case of wifi, having multiple access points really solves the issues he's having very well.
@@jttech44 Yep, a half wave dipole is the easiest thing to build.
Maybe a collinear antenna might be a good choice here too.
You losing transmitting power via the longer cable…
Not thinking about that solution…
@@edvardfranke Coax has loss, sure, but so does the air. Loss in coax is going to be less than loss in air, that's why cable TV is a thing. If you have to cover 100', but you have 50' of coax, it'll be better to run the signal over the coax and put the antenna 50' away from you, rather than 100'.
I built one of those "Russian" Wi-Fi beam antennas when I moved into a temporary apartment about a 1/4 mile from my in-law's house. My intention was to tap off their Wi-Fi network for internet services so I didn't have to pay an ISP to run fiber up to an apartment that I was going to leave in for a few months. It was about twice as long as the one in the video and made of sheet metal that I had cut out of an empty unused paint can. I then taped it on the end of a laundry pole and positioned it as high above my top floor balcony as I could. It worked well enough to read their SSID but not well enough for my laptop to connect to it. I think my laundry pole wasn't long enough to get the antenna over my building's roof ridge and that got in the way of the line-of-sight signal. But I proved that the concept was sound. It used to be fun to roam the streets with such an antenna looking for Wi-Fi stations that people didn't bother to lock, but today's routers pretty much now all come with WPA2 already configured.
Instead of additional routers or repeaters, you want to separate the router and access point functionality. You can place access points where you need them, while the router does packet routing, and can be placed anywhere. Several companies offer equipment like this; I use Ubiquiti. I have a lot of IoT (really LAN of Things); 150 devices on WiFi. One router (Edgerouter 6P), and 4 access points (UAP-AC-M) keeps everything humming along.
I was expecting you to also put a reflector behind the antenna.
Great video, nice explanation!
Might try that in the future. Thanks.
@greatscottlab I've heard people mention this works although never tested myself or seen anyone test it.
Are there antennas that are half directional that emit in half circle? You don't need wifi outside so with omnidirectional antenna a lot of energy goes nowhere
Yeah, was expecting that as well. Put a ground plane on the wall behind the router. Especially since it's in the corner , if you can put a ground plane behind the router and other wall you should see a 6dB bump.
Or even a cantenna which is relatively simple to make.... but probably illegal for transmit unless you know what you're doing....
For the last antenna, it would be cool to see its S11 measurements from a VNA. This would help see what the resonant frequencies are to confirm it was tuned just right. Use anything from a inexpensive LiteVNA64 to Rhodhe & Schwarz equipment.
I was waiting something similar to this from him :(
@@Oytun15 I was hoping for a VNA too.
The video he watched making last antenna, is russian. If you watch video about making this antenna, IT WAS USED FOR RECEIVING 4G SIGNAL.
I was also disappointed that he did not do the calculations himself. I made a yagi antenna a few years ago to get WiFi signal to a camera that was well outside the range of my router. They work well if implemented correctly. For what he was trying to do, such a directional antenna would not work well. The effective area/angle of the signal would be far too narrow to reach his full house. He could potentially improve his signal at his couch, but in turn would sacrifice coverage in the rest of his house. I hope to see a follow up video doing directional antennae justice.
Also the fact he basically used two conductors separated by dielectric as the antenna elements made it extra sus. No reason a Yagi antenna shouldn’t work if designed properly
Hi, as usual a great video, but being an IT guy I would strongly recommend separating router from the access point and build a small mesh setup. There are many available that are many ready solutions that aren't that expensive but will kill any "consumer" Wi-Fi router out there. I personally use Ubiquiti but as I said, there are many solutions. Hetamapping and meshing is a basic function for such solutions and believe me, having a great life-long support for a set of devices, single SSID for multi-bank networks, multiple vlans... I do know that it would not suit your video format, but check it out for home use :).
Fritzbox routers and repeaters support mesh without any hassle just plug them into the outlet and add the WiFi network and it will do it's thing. Setting up an Access-Point network is more of a hassle ✌️
Yes, I use ubiquiti and have never looked back
@@leocompany Yes but they're generally crap at Wifi. I also have Fritzbox, and separate APs from Mikrotik. Wifi on Fritzbox is disabled. Lacks fine grained control anyway. And you can see in the tear down what garbage multi-band antennas they use.
@@graealex like I said Fritz repeaters and you have good coverage ✌️
@@leocompany Mesh topology is generally a bad idea, unless you have an Ethernet back haul for it. Otherwise, from my experience, it is mostly placebo, because you may be getting full bars on your phone, but speed and latency are rarely improved.
In addition, some particular models can be driven to 30 to 36 dBm (1-4W) in the 2.4GHz band, and up to 28 dBm in the 5 GHz band, which at the very least can account for some losses because of bad antenna design.
Best is to use multiple WiFi access points throughout the house. Then use the isp as a modem/router. I have 5 WAP in my house. Two outside, one middle of basement and two at opposite ends of the house in the corner with reflectors.
There are not only limits to maximum transmit power, but also Effective radiated power, so you are also not allowed to simply hook up a directional antenna as that might raise your EIRP in that direction too high.
Whilst using different antennas might feel good, afaik you might just kill your MIMO capabilities, crippling your speeds even though your signal strength is better because the communication falls back to less channels.
And of course you can move the router to a better location with less things in the way like a more central location and an orientation which matches the antennas radiation pattern (though that is typically already good)
These consumer routers are a good all-in-one-package housing the modem (to translate fibre to electrical), the access-point (the wifi-module) and internal services (routing, dns, ..) in a neat package, but this might not be desirable in all cases.
You could place the modem (like your current router) where your fibre comes into the house and then run ethernet to a separate access-point in a more central location, or even have multiple access-points for better coverage.
Without running wires, you can use mesh-APs, though they usually cost quite a bit more and are prone to interference and wireless limitations themselves (but usually work quite well in typical setups)
Thanks for the feedback. Interesting.
So commercial routers are making sure they're legal
@@greatscottlabto make his post more simple in Europe acxording to SRD (short range device) directive which cover unlicensed frequency that are used for among others Wi-Fi you have limit of max power given in ERP (for example on 2.4GHz limit is 100mW ERP) and ERP is calculated as output power times gain of athenna (or in db outpit power of transmitter + anthenna gain).
So if you want to stay legal you must lower output power of transmiter if you increase gain of anthenna, so you get nothing by changing antenna. Only way that it can be usful is if you have different transmit and recive antenna so you increse gain of receiving antenna.
By the way in SRD frequency of 2.4GHz is listed on 2 places once as ISM where max ERP power is listed as 10mW and on other place for high speed data network (that part is relevant to Wi-Fi) with max ERP of 100mW (in USA ISM cover everything including Wi-Fi but they have different power limits and they do not use ERP but output power with correction for antenna gain).
There's also just a limit to how much increasing the access point's transmission power even helps. Even if you could get your phone to see the Wi-Fi network from really far away (or through lots of obstacles), it doesn't magically increase your phone's transmission power, and with Wi-Fi, communication needs to work both ways.
And I agree about separate devices, I always like to have a separate modem (usually ISP provided), separate router, and separate access points.
I moved about 6 months ago, and all I had to do is set the new ISP router to bridge mode (so that it essentially works only as a modem), and I didn't have to set my port forwards, etc. again, because those are all on my (separate) router. And a bit earlier, when my old router couldn't handle my new faster internet speed, I didn't have to change my access points.
@SamiKankaristo increasing power of transmitter do not do anything if you do not do on both sides, but increasing anthenna gain is enough only on one side, it increase radiate power (transition) and increase received power.
But again, in Europe, with a single antenna for receiving and transferring, you will get nothing. With a higher gain antenna, you will be able to receive a signal from further devices, but your transmit distance will not change if you want to stay legal.
10:42 these antennas work, but they are very sensitive to assembly, inaccuracies greatly affect their operation.
Antennas of this type were even used on the Soviet lunar rover
Yeah, and these antennas are not a good idea for indoor wifi. It's VERY directional. It's better suited when you have two antennas like that and they are communicating in a straight line, even kilometers away. Then you use your regular omnidirectional antennas to spread it around the house.
I've had about 5 dB improvement in this kind of situation by putting aluminium mesh a few centimetres behind the router. That way the signal interferes constructively with the forward transmitted signal and reflects back into your living space, and greatly lowers any signal towards neighbors. It doesn't sound like much, but 5 dB can make the difference between it working well and working badly. It's particularly good if you're using wireless bridging because you can get 5 dB gain at each end.
Well, that's what that Yagi antenna he was building is supposed to do. Spacing of the elements is important and frequency-dependent. If you're not careful, it will be worse.
@@major__kong It's not THAT critical. So long as you're within a quarter wavelength of where it should be (3cm on 2.5 GHz), it will usually work OK.
9:52 Yagi-Uda antenna driven element(driven element usually is just a dipole antenna) needs to be insulated from the rest of the elements. Try building antenna from 2mm metal rods attached to 10mm PVC pipe with hot glue. Also, yagi antennas have very high directivity and are narrowband try checking signal strenght with 0, 1, 2 and 3 directors with antennas elements both being verically and horizontally and with using different channels.
Yes, I wondered if the isolation stuff on the 2nd Element was done well too.
@@norm1124 I don't think the material is flat enough either, but this is only from my short experience building a test antenna where I got much better results using flatter surfaces. All angles are inefficiencies
@veden3383 Agree, that rough angled shapes on this frequencies bring its effectiveness to 0. I had a great improvement on 2100MHz for LTE modem with the same antenna but built more precisely from a 1mm flat roof-metal. The elements were screwed to the metal rod with nuts as well - it does not matter.
You can build a yagi without isolating the driven element, if you connect to it via a gamma match. It's trickier to adjust in the SHF range, especially without proper measuring equipment, but it can be done.
I don't know if it's the same in Germany, but in the Czech Republic the transmission power should be measured as radiated power (including antenna gain). Wifi power should be 20dB after the antenna, not before. So if I'm not mistaken, It's still illegal because you're changing the antenna gain...
The best play is always to strategically place access points, but if you dont have a lot of Ethernet already ran through the walls this is the next best thing :)
Thanks :-)
Better if you use a mesh system, it can do wonders.
Another option is a mesh network, where the access points are wirelessly connected together. But ethernet is always more reliable and faster than wireless.
@@SamiKankaristo in any decent mesh network the nodes can also be connected by cable to boost its performance.
@@GODAXEN, that's true, but I was talking about an alternative to running ethernet cables (or having them already installed, like in the comment I was replying to).
I’d be interested to see if laying the router down flat would make any difference given that the simple antenna would radiate outwards across the flat instead of up and down.
Also, consider moving the wifi to the centre of your flat. :)
Yes, it would...
Thanks for the video! To put it bluntly: the measure that really helps the most are repeaters that are connected to the router via cable.
Connecting external directional antennas is prohibited by law in most countries. The idea with amplifiers cannot work because you would have to amplify both directions. And then unfortunately there are a lot of fake videos about supposedly great WiFi antennas that don't work. In order to make a functioning antenna, you have to take a few more things into account anyway.
In your case, a metal foil on the wall behind the router could help a little. On the one hand, this directs some transmission energy towards your apartment. And on the other hand, your neighbors' WiFi signals are somewhat shielded, which leads to a better signal-to-noise ratio and thus improves your uplink connection. By the way, the latter is usually underestimated.
dammit i thought the title said "I tried OVERPOWERING my Wife!" :D
Oh boy
That content is membership only.
I had the same problem for a long time but everything changed after 802.11 k/v/r became available in the consumer grade hardware. This technology allows devices to roam between APs. Works like a charm and roaming so fast that it happens without noticeable connection degradation. Personally I have some not very expensive Zyxel APs and can highly recommend them but many other manufacturers have this too.
If I can't use the router software to 'improve' the signal (via changing channels to less crowded ones, etc) then I block off the signal going to areas with use of aluminium foil. An added benefit is that you can shape the foil sheets into vaguely parabolic shapes, enabling the direction the wifi signal to where it is needed.
Old-school
Thanks for the tip
I mangled my comment a bit, but glad you get it. Additionally, using foil to block off un-needed areas, and at the same time bounce signal where needed, is great - but you can also utilise line-of-sight by bouncing signal off sheets of foil placed like mirrors around the apartment@@greatscottlab
Since you say that’s the only spot to mount it, the most logical option would be to disable wifi on the ISP router and run ethernet to central access points on each floor. It definitely doesn’t have much family approval factor, having ethernet wires around the house, but it is a much better than mesh wifi, as that again depends on wifi signal strength to hop APs.
My house is also built with thick concrete walls and 3 floors with a router on each. Took an afternoon to neatly route the additional cables along the house exterior and now it’s blissful. I get consistent 5ghz wifi everywhere. And as a bonus, I have 3 additional 1Gbps ethernet ports on the other floors for anything which might require a wire
Finally a wifi improvement video that isn't all just in the routers settings in the browser!!! Thank you for the inspiration for my next electronics project!! Great stuff GreatScott!
Haha glad I could help 🙂
There are some routers and access points that you can connect to using telnet and set to regional setting = test_mode , , therefore there are no limits on transmit power.
The big problem I noticed with the antenna is that you need to isolate the copper elements from the rod, otherwise it will seriously affect your performance. That's why Yagi antenna elements are insulated from everything else (except the feed line).
Great Video! Just a quick hint: The improvement in your signal strength in your maps ( 7:27 ) should be given in dB, not in dBm.
Move it to the ceiling. Higher is better so i learned. Also there is a printable wifi booster antenna that actually really works good up to 100ft. I totally vouch for it.
Thats really practical. Dodgy WiFi is so frustrating!
Thanks 🙂
Kreosan antenna is highly directional. Its intended to connect on high distances, not to spray wifi waves over your house
You've got a million options here to improve the WiFi.
1. Ask your ISP to move the optical fiber to an inner wall on the house, preferably somewhere in the middle of the floor-plan instead of the far wall.
2. If they say no, look into getting an optical fiber male to female extension and move the Fritzbox yourself to the middle of the floor-plan.
3. Put the Fritzebox into Full Bridge mode, and use a decent router with REAL antennas like a Netgear RAXE500.
4. Do the same as 3, but use a long Ethernet cable, and install a new router in the middle of the floor-plan with the Fritzbox in Full Bridge mode.
I will never understand why fritz!box is so popular even among tech enthusiasts.
@@pascal2085 It's nothing but crap. I remember my swiss friend wanting to avoid it for ages.
or option 5..... turn the WiFi off in the ISP router, leave it were it is. And then run some cat6 and install your own WiFi APs.
Optical? That's not a fibre op router... LOL!
@@dk6578
Uh.... that is..... it has a direct GPON connection feeding it lmao. What else is the giveaway that it isn't?
Glad you mentioned mesh routers at the end. I like you, used to mess with amps and antennas to increase throughput. However, ever since getting the EERO mesh modules, I'm blown away at their performance. Especially using the LAN jack on a mesh pod. The speed is amazing.
Thanks for sharing
I'm using TP-Link Deco mesh setups at home, and work, so I can monitor them remotely through their app, and it's so much better than dealing with crazy stupid extended antennas on a router, and WiFi range extenders where you have you end up having to connect to several different networks if you have a large home going from one end to the other, so now the only WiFi extender I have is in my backyard shop that's that's a repurposed TP-Link router, as I did not want to have to buy another Deco pod, as it's not used as much, and it has a USB port, so I can keep a fan under it for cooling as I don't run my shop AC/heating when I'm not out there.
you ideally want your router placement to be in the center of the area you want covered, and preferably elevated higher so less obstructions. And those Yagi style antenna that you can DIY are typically better suited for long range connectivity, provided you have line of sight and the Fresnel zone is not too obstructed. I've tried my hand at making various long range antennae (yagi style, helical style, cantenna, dishes, pots, colanders, etc lots of things can make interesting antenna) for use in a local Wireless User Group, most had a pretty solid connection going 8KM to a local node. Another good example for those antenna are to link buildings on your property that you cant run a cable to, I took the lazy approach for my mom's cottage and put outdoor mikrotik radios on the buildings. Nice video, definitely at least see to the router placement, or if you cant move it then disable it and put a better access point centrally with a cable to it for best results
always use cable for best connectivity on smartphones.
This comment should be at the top. A more central placement of the router will provide the best db gains in every room without any modifications.
@@alttabby3633 Access points belong to the ceilings for best results rather then buried behind cabinets or in the service entrance room in the _corner of the house_ (wtf?). The problem is - no average house owner would place them where they would perform best.
And after Scott announced that he was going to build a new house to live in, I thought "well, as a so-called 'electronics enthusiast' he will surely remember to plan a proper network". But I couldn't be more wrong and to my mind he completely debunked himself with that. Even the attempts to improve connectivity in the video show that his knowledge is stuck at the level of 802.11g, totally ignoring modern WiFi properties such as MIMO. No Rohde & Schwartz spectrum analyzer will help in this case. Basically his improvised antenna design worked against the AP trying to re-balance its MIMO channels in order to compensate antenna mismatches.
And besides the legal argument, the description of the first idea - simply increasing RF power - totally lacked the most simple counterargument: what sense would it make to shoot the mobile device with 40W to overcome two stone walls with the phone still only answering with its 100 mW transmitter?
I use a metal plate behind the router (pointing to the direction i want) and works fine. The idea is that the waves bounce to the metal plate and increase the strength of the signal. You can also use this to block or weaken the signal into a direction, for example to the outside world.
Kreosan's antenna (Yagi) must have worked better if the router were outside that room and even provided better signal strength since the Line of sight seems to be clear to the hall based on the house plan. But i suppose moving the router is not a great idea and the other antennas have already redeemed themselves.The Yagi might possibly work better if you are trying to connect to a network 2 houses away in the sky. But with the walls, it seems to hinder its capability. For fun it would've been nice if you could have done a test with both antenna types at the roof and see which one increases the range. But alas, that is not the motive behind the video. Great video as usual. 👍
Thanks for the feedback :-) Maybe this topic will come up in a future video ;-)
@@greatscottlab I suspect the Yagi needs better construction than cardboard.
It was made with a metal bolt and nuts so all plates were shorted which it shouldn't be
The biggest problem with a Yagi is that it has at most 30 degrees of effective radiation from where it's pointed. So in a square building, you definitely won't get the best signal on the side corners. That said, I suspect that RaOne is correct about shorting the plates. There's a really cheap Yagi I saw on Amazon which uses nylon male-female screw spacers to link each plate. No idea if it works, but it definitely has each plate insulated. Finally, you can find professionally made 2-5GHz Yagi antennas out there, which might be a major improvement over the DIY one.
@@RaOne-gk3ok These types of antennas have zero potential in the centers (nodes), so it doesn't matter if they are shorted.
Its always a joy seeing your uploads on Sundays! Stay Creative! -From Texas
Hey Scott, Love your content!... You know, that construction for the directional antena is actually not optimal. I think this is called Yagi antena and those can be constructed in different ways but the "front" elements and the final bigger "Reflector" need to be isolated from the connected element... I'm no expert, but I followed the mesurements of an online calculator and built an antena with nylon standoffs and some virgin copper pcbs cut in circles... And I reached almost 200m in a single direction! I think you should try many different types of antenas, it could be a good future video... here some types: Cantenna (AKA horn antenna) (Built with a can and a small coper wire), Yagi (just like the one you built but isolated), bowtie (looks like it can be easily made with a bit of copper wire), BiQuad, Dipole, Helical ... I tried a Helical before, but it was a bit complicated for me...
Regarding 8:04, even harmonics of antennas actually present significantly higher characteristic impedances than 3rd order harmonics, meaning you can improve the signal even more by making a sort of fan dipole design
The 100mW is the maximum power that is being sent out of the antenna. So if you using an antenna that has a 4db instead of a 2db antenna that you’re still in violation. Nevertheless great video!
And would like to see how difficult it would be to amplify the signal and its results.
Thanks for the info!
It varies by country, but in the US the FCC regulation is quite a bit more than 100mW, and more complicated.
- maximum of 1 watt coming out of the transmitter
- maximum of 4 watts EIRP, which accounts for the gain of the antenna (in direction of highest gain)
- there's also an for point-to-point connections; they can go all the way up to 158 watts EIRP (52 dBm), but require a highly-directional antenna providing the majority of that effective power.
In any case, for non-p2p installations, it's not necessarily illegal to use an amplifier, so long as the amplifier isn't above 1W, and the antenna remains omnidirectional. But an RF amplifier can cause other legal issues, like amplifying spurious signals below the legal limit in the original transmitter to well above the legal limit.
More importantly, it's often pointless to increase the power of the AP without also increasing the power of all of the devices transmitting back to it; increasing TX doesn't help RX, and wifi is bidirectional.
7:44 Those antennas seem to be directional, as indicated by the “6dBi” in the product title. That would explain the 5-10 dBm improvement, and if the 2.4 GHz antenna was wrongly oriented, also its bad performance (or it could just be a bad antenna on that frequency, which would be par for the course from a 2€ antenna from Aliexpress anyways).
In any case, the best solution to this problem is to run cables and place APs in the right spots. We tried solving this problem many times with repeaters and the like, but it was all very unstable. In the end we had cables ran (on the outside due to the construction of the building), and it works like a charm.
For best performance, a 1/4 wavelength antenna needs a ground plane to present as a mirror, not so different than when you put a 1/4 wave antenna ontop of a mirror visually the antenna and mirror together look like and operate like a 1/2 wavelength antenna. With the largest visual profile of the antenna and and reflection in ground plane being the same angle with the largest db gain.
Thanks for the feedback :-)
I live in a small (36m2) apartment, and great wifi coverage from a single AP is one of the good things about it among the many bad things (like a lack of space for a proper desk, let alone a lab) :) I use a Ubiquiti UniFi AC PRO access point running at 17 and 20 dBm for 2.4 GHz and 5 GHz respectively.
However for your house, I would recommend turning off wifi in that FritzBox, and placing 2-3 separate APs across the house, all wired back to the router (or a switch, i.e. don't use mesh). The TP-Link EAP610 and EAP615 are great value for money, and can be used without a controller (but I recommend one if you're usinf multiple units).
Personnally i think since you use a Fritz!Box you could just use one of their repeaters they are great and use mesh. Also there are the Fritztender antennas which you could try.
One gotcha is the devices being used on wifi. I could crank up my power to 100% and transmit pretty long distances. A low powered device such as an iPhone will pick up the wifi but does not have enough power to transmit back reliably.
High power will also inject distortion into the transmitted signal.
Proper wifi design is to transmit using low power and have a sufficient amount of access points. This way you get a reliable wifi network with consistent throughput over the entire area.
Did you try to use a VNA to test the characteristics of your antenna ? Especially for the DIY one it might need a bit of tuning.
Hello, many years ago I tried several DIY alternatives but the only ones that really worked for me until today are the Panel antennas, try and see and if purchased, much better. Thank you for your videos, special greetings from Honduras.
You should also consider testing with two dipole antennas (like you already have in this video) but with them being perpendicular at a 90 degree angle as the two radios experience high crosstalk when they both are in the same configuration. Since the router has 2 antennas but the physical world has 3 axis (x,y,z), you may have to experiment with 3 different placement configurations of the two antennas.
No, don't do this, the radio chipset is 802.11AX and has MIMO where all antennas are used together to increase range and throughput, he should in fact add the third antenna (the router has three antennas, the third one is not DECT) to increase performance that for some reason he left out.
The word you're looking for is 'coupling', and yes, spacing the antennas at least 1/2 wavelength apart would solve many of the issues here. Ideally, they'd be stacked vertically or a full wavelength apart.
@@troycording you got any references for backing this claim? Consider sharing those. I checked in a bunch of places and all of them advocate for having the antenna at different angles.
Finally, if the router has 3 antennas, then all 3 should be used. Completely agree with that.
@@imdnxtaccording to router guide i got with ASUS AC59U it says that best position is with all antenna straight and up, parallel to eachother, perpendicular to router body.
And i checked this claim with Netgear 3 antena router and having all of them up is the best. Rotating them only hurt the signal. From couple of db up to 10. And speeds were greatly reduced.
Mounting your WiFi AP near the ceiling sometimes helps as typically there are less objects/furniture to absorb or reflect signals compared to counter/ground level. Another thing to consider is that a walls apparent thickness increases as the beam angle moves away from perpendicular. I also find that manual channel allocation can be handy, especially if you can split you WiFi up onto different Access Points or networks. I use this for WiFi mesh devices as the high amount of traffic can interfere with regular WiFi use.
You know you are German when you care about WiFi signal legislation. 😂😂😂
The ''hack'' antenna is no good since all is connected together. I built a 3D printed Yagi antenna with copper wires as concentrators and it's pretty impressive !
Thanks for this video. I always wonder how much impact the antenna orientation has on access points with external antennas.
As yours has originally internal antennas and is wall mounted i wonder if there is any difference by rotating the router by 90 degrees vertically and/or horizontally?
Man i like your videos because you are explaining a everything from the beginning till the end, and that something amazing you can understand it very clearly
A couple things to consider.
1. Max EIRP is inclusive of antenna gain, so you cannot add just any antenna to a wireless setup as you could be operating outside the legal limit. In New Zealand, the legal limit for 2.4GHz is 36dBm (4 Watts).
2. You can sacrifice bandwidth for range. By decreasing the channel bandwidth from 40MHz to 20MHz you will get better range due to receiver sensitivity.
3. I've seen advice to try a mesh setup but one thing to remember is you are again sacrificing bandwidth for range. Every hop in a mesh network divides the throughput in half.
4. Antenna arrangement is important. Each antenna has a radiating pattern. If it is a MIMO device, both antennas work together to provide the throughput and if different antenna are used on each port (like what you tried in your video) you will get reduced performance because the transceivers are using spatial multiplexing. If you want to use different antennas, you need to set the transceiver into spatial diversity (if it is supported).
5. For OFDM signals, at max transmit power, high MCS rates are not achievable and usually require a 6-7 dB of power backoff to achieve high modulation rates.
6. Consider Fresnel zone clearance.
All the best.
FINALLLYYYY!!!!
NEW great Scott Videowwww.
MERRY CHRISTMAS
❤ FROM Philippines
Thank you :-) Happy holidays
WARNING! Do not play with antennas on your router, unless you know what you are doing, or you can easily burn your transmitter, and pretty much won't get any wifi, when it happens. Use this video only for educational purposes.
DAMMIT! Now you tell me! I hooked up a trucker's CB antenna with power-amp to my home WiFi router....
Burnt it to a crisp!
/j/s
One of the challenges, as well as avoiding breaking rules by boosting radiated power, is you also have to improve receive sensitivity, otherwise the receiving device hears the signal from the router but the router never properly hears the reply. Of course, the receiving device also needs to increase its transmit power. Perhaps mesh (as you hinted to) or even powerline extenders (if these devices are reliable now).
Here is a suggestion: Turn off the wifi functionality of your router and get a dedicated wifi access point such as the one from the Ubiquiti lineup. It alone will definitely improve your wifi experience.
what a great video. I've learned lots of new thigs about Wi-Fi routers while watching it
Another thing to remember - sometimes, more power isn't better. If you're having issues and turning it up doesn't help, try turning it down. Signal reflection becomes a problem at higher power levels.
I don't believe it. Maybe saturation could be an issue but how is lowering the transmit power gonna help with reflections?
@@kwinzmanif it does, it would be that the reflection arrives early or late. Double packets are a big problem. But I could be wrong.
MIMO used by modern WiFi devices actually benefits from signal multipath.
Communications goes both ways. It doesn’t help to increase the amp power, if you have a poor antenna and/or a deaf receiver.
extend the wires of those antennas and put them in the middle of the house
You should trash that entire Fritzbox and replace it with a fiber router from ubiquiti or mikrotik. Then add some access points.
Those frizboxes are one of the worst things in existance.
The other issue with transmitting above legal limits (100mW or 200mW) is the client device might now "hear" the transmitter but won't be strong enough to reply back. This makes everything slower in both directions. High-gain antennas are also a bad idea because the signal is now beamed rather than omni-directional, so you can create more problems without realizing it. The only good solutions for home are (a) mesh wireless networking or (b) wired network with multiple access points.
A directional antenna is the right thing for this application, blame the ISP for bringing the fiber to the wall and no further. Now if the router is near the middle of the area as it ideally should be, a directional antenna will make things better in one direction and worse in another.
Yeah, highly directional antennas are uncommon for the hotspot (because usually devices should connect from multiple directions), more common for clients, but obviously less useful for handhelds (even though there are inductive coupler/cell phone, but I've never tried them). One exception is these ~7dBi long monopole/whip antennas because they are still fairly omnidirectional as their radiation pattern is torus shaped. This could be useful for increasing gain within a single floor and reducing the interference with other floors. However, in a MIMO setting you'd get correlated signals if you orient all monopoles vertically. But with some slight variation orientation or extension cables you may still get a somewhat decorrelated signals such that it is still worth it. I have never experimented with that though. Annoyingly not all vendors and drivers provide detailed MIMO performance information to be able to conduct such experiments.
I remember back in 2005-2006 being desperate to get wifi to work better in my parent’s house, i ended up buying several small antennas and even building a pringles can design I had found online. Nothing worked and no matter what store I went to, nobody had ever heard of the idea of a signal repeater for wifi. It was ridiculous. Glad things are so much better nowadays.
I’d go for a wifi6 mesh network. You can hard wire as many of the nodes as possible with 2.5G/10G (once needed) and PoE.
That being said this video in it’s own is great!
My dad is also an engineer and that floor plan looked so amazingly engineer-y that it just tingled my brain-bits
Really neat homade booster!
Better to just get a fast router and mount it at a location visible to most places.
I chose my ceiling in the center and of my house mounted cables to the ceiling... perfect.
Also make sure you arent on similar channels to neighbors. Higher noise on a channel means worse ping
Yagi and other types of the same kind work really well when the distance is an obstructed >1km long distance. A friend of mine built one during university times to get wifi connectivity from the university and his house which was on a hill and had direct vision to his faculty. It worked very well after about 6 months of trial and error!
that and the reflector and elements should be isolated for the dipole you drive it with.
I had similar issues, so I started reading how different characteristics affect Wi-Fi signal. The best thing to do is to get a router with high transmission power, low signal attenuation and number of chains (this is related to the number of devices that can connect to the router at the same time). From the ones, that I found only two were covering those criteria well - MikroTik and Linksys (Cisco). The budget option with most features - LTE, firewall, SMTP, FTP, NTP and so on; was the MikroTik hAP AC Lite.
Now in your case, you might consider something a little bit more modern with meshing, just so you can increase the coverage and reduce the noise.
keep in mind the multiple antennas are used for MIMO!!!
Mesh repeaters are an option but going pure mesh with wired access points are the best! Cool project though 😀
Ok, try this Scott. Keep the router where it is and use two sma extension cables (shielded) to raise the antennas higher. Say 1.75 to 2.25 meters above the floor. If you use a small metal angle bracket, it will give you a ground plane.
I would recommend at least half the antenna length for distance from the wall. I.e 6 cm ant 3 cm spacing.
Please note, i suggest this as it has worked for me in similar situations. Results will vary.
Good luck. And happy holidays, mate.
Reminds me of moving into an apartment without internet back in 2007. I bought a directional antenna that made it possible to access my neighbor's open wifi from a significant distance. It wasn't perfect, but at least I had internet access at all.
Thanks for the video showing real-world WiFi reception. I liked that you included the DIY directional antenna, but I wish that you'd included a more proven directional antenna as well. It could have been DIY as well, but inexpensive options are available on AE or TMU.
You don't want some 24dBi long-range model in your house as they create spot beams, but perhaps a 6-10dB model to shoot diagonally as you did with the DIY disk antenna. I realize that we won't see another video about this, but an established design with
Really interesting indeed, dude! Thanks for all the information! 😃
But yeah, there are people who make their own FPV antennas! It's a pretty deep rabbit hole to go through, but they swear it's worth it! Go figure. 😬
Anyway, stay safe there with your family! 🖖😊
And happy holidays!
Happy Holidays :-)
A waveguide antenna (cantenna) seems to work pretty well and is easy to construct. If you want to cheat, a third party AP such as unifi UAP would also offer quite an improvement.
Oh, my dear friend, microwave RF is pure black magic wizardry. On these frequencies, minor imperfections in any antennae will greatly affect the signal. If you want to put this model to the test, you will need to craft it with great precision, to the millimeter. Keep up with the good work!
Not really wizardry, but a range where precision and very thoughtful execution is necessary, as small parasitic inductance and capacitance matter in this range - e.g 10th of a mm differences in length, his "antenna holder" made out a metal clamp or the sharp edges of his cutouts..
..also: Look at his soldering "skills" in every video! A shame for a studied engineer :)
@@salat "Wizardry" and "black magic" are common words to describe microwave RF within the community. CuriousMarc is always repeating that in his series about the Apollo program. For me, the best example for this are the so called 'hairpin filters'. A passive RF filter made entirely of PCB vias, without any other component. In these frequencies, as you pointed, conductive parts start behaving like components depending on their arrangement. Of course there is no wizardry in it as magic isn't real. Now, when it comes to his soldering skills, why would that matter that much? Most of manual soldering is only for prototyping anyway, he needs to be good with the theory and architecture, soldering is really up to the manufacturing plants to master. That being said, I'm quite proud of my soldering myself. Peace!
A biquad is easy to make and works well. I knocked one up out of bent pieces of the solid core house wiring type wire and an un-etched piece of pcb material.
Great video! The Fritz!Box is one of the best routers I owned, tough wifi has it's limits...in my parents house I've installed the router on the middle floor, and added one repeater on the first and top floor. If you want good coverage, this is the way to go, without much hassle and a reasonable expense.
Btw the Fritz router has a very good coverage (mine is the 7530), to be fair, the signal is pretty good on the last floor, only on the first floor where walls are more "comolicated" is really required.
I built my system with Mikrotik system. I have 3 AP's that are all PoE enabled and the router itself (which is very small) is located in my electrical cabinet where the ethernet cabling and fiber to the outside world are as well.
Their CAPsMAN works very well even if at first it was a bit confusing to set up and all the AP's work as a mesh. AP's are small, low energy and I've just dotted them around my apartment so each room has coverage and because they're all PoE, they do not require bu one Ethernet cable that can be easily hidden away with cable trunking or using the CAT5e that's already within the walls of the apartment.
I have 2 small 2.4ghz AP's for general usage and coverage and one 5Ghz/2.4Ghz AP
It was cheap, looks very nice with proper installation and has worked very well :)
Great video. Thank you for the information.
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Lol, I watched that video when it came out, and I said it would not work.
Thanks for proving me right years later.
Reminds me of the "windsurfer" WiFi reflector I built many many years ago. I have no idea if its worked, but it was fun!
Oh, and you can try the aluminum dish trick, it works really well in cases like yours, let us know the final setting, these are important matters, particular to each house layout.
I recently replaced my old Wifi router. The new one came highly recommended, as any device one buys on Amazon these days is. This one somehow fully reaches every former Wifi hole in the house, upstairs and down. It has six vertical antennas and the accompanying literature says it chooses them in pairs to transmit directionally to each user. Appears to work perfectly. I've been an amateur antenna enthusiast for ages and I understand how it could do these things um... theoretically, but simultaneously interact with transceivers throughout the house? That's got to be magic.
As already mentioned, the ERP (Effective Radiated Power) is a thing to watch out for. But the power levels used are low enough to not get you in real trouble, even if you are going 'way beyond' what is allowed ;-)
But the antenna you used needs a ground plane to have the best effect and you don't want the taped on the side of your Fritz!Box like that.
We use the same (new) Fritz!Box in our office and I noticed that the coverage highly depends on the channel used. You may want to try different channel settings in your box to see if you can improve the coverage even more.
There are plenty of people who play with magnetrons and they don't get in trouble. I also did some experiments at limited power like lighting up some fluorescent lamps.
Think about this: you are throwing away 75% of all your energy! It’s crazy what we do sometimes. Love your videos.
a windsurfer wifi extender would have done the job for a lot less hassle. :)
Antenna designer here. You can't simply measure the physical length because there are electrical wavelengths which very depending on the type of metal used as an antenna. Antennas are radiated and measured with a network spectrum analyzer that plots a smith chart to characterize them. I get this is probably beyond or outside the scope of your video but for the sake of completeness figured I'd chime in.
I have used 12/13 cm bands for many years. Set dipoles with a reflector and one director in the open corner of each room and hall. Passive reflectors work well.
I once built a unidirectional bi-quad wifi antenna with a CD as reflector.
It worked great!
Was for 2.4 GHz but should be adjustable to 5 GHz easily.
That older fritzbox router is pretty good device, one of the best you could have at the time in Ireland. It is very stable, no glitches, only downside is it only supports 2.4Ghz. I still use it, because any other I had from network providers sucked big time.
What you want is a colinear antenna. They're simple to build and have omnidirectional gain in the horizontal plane. Basically the RF field looks like a squished toroid shape. However, as someone else mentioned, if you want to stay legal then you need to be careful about not only the transmit power but also the gain of the antenna.
Part of my job is fixing network issues in peoples homes so I've gained some experience over the years.
Upgrading the antennas is something I've tried around 10 years ago and it *does* work, however it seems that it only makes a difference when you have line of sight to the access point. As soon as there are any objects and ofc walls in the way you can can just as well stick to the original antennas. they work just as good or most of the time better than what you could come up with.
The easiest advice I can give everyone is to place the Router up high in the room and do not mount it on a wall.
you could build a little shelf on the wall for it to sit on. the goal is to make the radio waves travel through the fewest objects possible.
Also place it so the radio waves don't have to travel across an entire wall but instead mostly straight through it.
you can yield around 10-30% better reception that way.
but in the end... even the best router will not be able to provide good wifi connections behind 2-3 walls... so you need to place another access point in your home.
If you can find any way to do it... please get an ethernet cable to it. you can place your next access point further away from the main one and it will not loose bandwith that way.
If you have to work with WiFi repeater... don't use too many of them. just get a proper one (Tri-band if possible) and go from there. yes they can get expensive but it doesn't help to place a lot of junk in your rooms that doesn't fit your routers wifi standard or antenna configuration.
do not place it too far away from the main router. If the connection to the repeater is weak the bandwith will go down significantly.
This breaks my heart!:
1) Antenna polarisation: 2 antennas = dual polarity - having both antennae parallel to each other will almost half the throughput
2) Antenna directionality: using directional antennae will reduce reflections and multipath, which are important for MIMO, reducing throughput.
3) TX Power: I cannot stress this enough; Increasing TX power does next to NOTHING. the clients TX power is limited, coverge does not increase by increasing the AP TX power (of course download and upload not considered in this part, but ther are many more reasons to limit AP TX power)
4) Antenna location: avoid going through walls and place the Antenna centrally - for example in the middle of the floor, easily visiable to each doorway (interior doors are usually low density and allow Wifi RF to pass) - imagine the antenna like a lightbulb; if you can see the light with the doors open, you are getting signal.
5) Antenna aperture: the more of the antenna element you can see, the better the signal - it's like the wire is a solar panel - the more of it exposed, the more signal.
IMHO, points 1, 4 and 5 are the most important. Go make changes and tell me it's not better.
I was excited when I saw the Kreosan antena but its less efficient than other antena.
It looks like the company that makes your router also sells Powerline Mesh devices. I'd suggest looking at that to deal with the weak spots in your house. European homes are built differently than homes in North America. It's not surprising that the Wireless signal doesn't get that far.
I'm honestly envious of the options in Europe for this type of stuff. It's easier to buy here now, but at double the price it seems.