There’s NO WAY this works - Debunking bogus network splitters.

Hi i love your content. Your the best

when the h

the earliest ive been

I'd love to see a Coax TV hooked up to HDMI.

could you please make a video about ethernet wan aggregation, like using qhora 322, or peplink, or asus new 10gbe routers to aggregate 2 or 3 different isps to get more "speed" (essentially getting 1 output with all of the speeds combined)

it should've worked like a hub if they configured it correctly i guess??

"And so one more finger curled up on the monkey's paw"...... 😂❤

@@divyamthakur that's exactly what a switch does
edit:
ok nevermind I'm wrong, still if you want to explain me the difference go ahead, i like reading explanations :)

When money is involved, rarely are the motivations humanitarian.

@@divyamthakur I guess I'm a noob but I always kinda assumed these things are basically a hub? what is the diff?

Awesome

This kind of setup is how telco gets run as well. 4 pair, 4 phones.

You also probably didn’t screw yourselves over by slamming into a hub that also requires crossover cabling. 😂

Tbh I saw properly cabled (that is 4 wires on one port and 4 on the other) splitters in several industrial installations.
Expecially in not big warehouses where fiber was not needed

@@TheInsomniaddict Telco is not ethernet. who cares?

Yes that is weird...I got Maxwell's theory out of it double your baud rate.

Tech tips??? On my LTT?

I did this once to run DSL and Ethernet over a single Cat6 cable, it worked, but was replaced as soon as a second wire way pulled through the wall

What would happen if you inverted the cable. 2 cables into a single port on a pc?

@@nolan33 Depends on how the network card / chip handles it. You will either connect to just one of the networks or to none at all, plus you will be limited to 100Mbit/s as gigabit needs all the 8 wires connected to a single port on both the switch / router and pc.

Thank God there are other network engineers here!!

You mean Carrier Sense

yeah I was thinking the same thing. Effectively those splitters are just a shitty hub. CSMA-CD is enabled in half duplex settings, but not sure if the consumer grade switch supports half duplex.

Yeah, thanks. I was on the verge of screaming at my computer screen: “google how Ethernet hubs worked bro”.
With that said, I wonder how tested most NICs are these days to work in a collision domain containing more than two devices. That’s all modern NICs usually have to deal with thanks to the advent of the switch.

I experimented exactly that in one of my projects, and it doesn't actually work. Reason being standards like 10BASE-T, even when set in half duplex mode, still uses the same two pairs as tx/rx as full duplex, but there is no way to electrically connect those two pairs together so all devices on the bus can share them. I did find there's a 10BASE-T1S standard that does exactly what I needed but the ethernet chip I had didn't support it so I didn't continue that.
edit: by "work" I meant all devices connected together this way can talk to each other. I was able to get one device to talk to other two even at full duplex, but not between all three devices I had at the time.
edit2: I was actually experimenting with 10BASE-T, not 100.

Ok

😔

How many times do you think that's been said😂

🎄😢

This commenter knows sorrow.

I liked the CAT5 because it has 8 wires! I made a lot of "adapters" for my hadrware back then when I can't afford stuff like a SCART to VGA cable or a Multi DVI splitter and such. I was tempted to make power run through it but common sense and the prospect of fire stopped me.

I was genuinely impressed with how good the example was

@@HR91360 How rude.

Reminds me of the old (before the 90s) educational programs that relied on physical props for demonstration, like "The Secret Life of Machines".

@@HR91360 A different way? I can't see any other way besides being ableist and rude.

@@DrewTNaylor how wude uwu 🤡

Was it the white triangle shape with 3 ethernet port? If yes i had it and was working not so bad.

@@dominiquebeaulieu7476 nah it was two ports and two came in a pack

How bad is your face?

@@Aguyinachair I do remember those. I also was $hackled for a little over 3.5 years. They were definitely a boomerang sale. The customer insisted, I told them otherwise, they wanted it anyway, but I warned them. Surprise, surprise, it was returned time and time again.

I actually have needed and 😅to use these things. Mostly for partyline comms systems like ethernet controlled light switchs and other things like arduino networking. They do work, but are extremely niche and not for splitting internet like joe blow wants

Elaborate?

@@Kyle_G_Sy Drop shipping is a a method of scamming pretty much, and a get quick rich scheme at best.

Thats VERY simplified and generalized. Almost all of amazon is dropshipping. 80% of online stores are dropshipping. Nobody cares. The problem is when it's used to scam someone and products are never sent or only after months of waiting.

@@theresoluxion you'd think tech savvy viewers of LTT would know reselling chinese crap for insane markups is scamming, but you dont seem to

​@@okaydetar821false. Dropshipping is a logistical method of moving product that's been used for 45yrs however once in a while like with anything. Someone runs a scam. And then dodo brains automatically assume everything is a scam as a result. Their problem not logistics problem😂

Voice only requires a single pair, doesn't it? You should be able to to 1gbps data + voice.

@@TheInsomniaddict Yes, voice only needs the 1 pair, there are instances in the UK where you might want to push through the ringer wire on the 3rd wire so it could need 3 wires to work. Unfortunately even with voice using 1 pair that leaves only 3 pairs remaining, so you still wouldn't get 1000Mbps which requires all 4 pairs, you are still limited to only 100Mbps which is still fine for most things 👍

@@Mymatevince Darn, I was thinking it required 3 pair with the 4th for shielding. Ah well.

> "The Data / Voice version is sometimes useful for pushing good old fashioned dial tone down the 1 Ethernet cable with 100Mbps internet as well."
Exactly what we're doing to get our Ooma base station networked, and its phone line interconnected to our central phone block. (Although we made our own phone+FastE splitters. The few I saw offered commercially were ridiculously expensive.)

I want what’s in this example.
Our router goes to 3 rooms- but there’s four gamers
all rooms have Xbox SXs all of us are tryna play multiplayer games simultaneously
I want something akin to this device for the living room so we can have four devices going at once…
What would I search for and / or do?

Seriously, I was like "... More dropshipping? REALLY?!"

We always made them in-house, as it was the only way to be sure you'd get the same pinout everywhere. This was back in the days where connectors wouldn't auto-negotiate tx vs rx, so you had to deal with x-over cables too.

When I worked for an ISP 17 years ago, we also had our in-house splitters...
They even made them fool proof to install, by colouring each contact in the respective wire's colour... you pinned the whole cable to one side, and then went from that side to the other side where the pairs would be switched with a small piece of cable...
That way, we could lead a single cable from the router or modem to where the TV was located, and people had an extra plug for their laptop, or to the office, where both mr and mrs then had a plug to work or play WoW, all without the need for another thing that needed to be plugged into the power network...

Just make it yourself

THANK YOU. In anything remotely modern, this is such a WHY GOD WHY hack.

yes, yes, yes. I'm using a few for cat5e carrying balanced audio to several studio monitors.

@@grants7390yup, I’ve used them for studio headphone systems from Furmann.

Like the connections in treadmills

I heard they use them to send HDMI signals even further, you can even get HDMI to Ethernet adapters for this very reason!

I've used them for adding terminators to a cat5 cabled CAN-bus system.

Yup, i used one of the splitters shown 'the more honest one' for splitting analog audio signals being run over structured ethernet cabling. While it was a very special AV use case worked a charm.

Then it's not an Ethernet splitter, it's just an rj-45 splitter

Yep. Worked on a product that ran a RS-485 serial protocol over Cat 5/RJ-45 cables, and these splitters worked fine as all the devices treated the cable as a bus. Typically you'd daisy-chain devices, they'd have two ports that were simply wired together, but splitters worked too.

Was about to comment, that these RJ-45 splitters are used with device, where serial communication like RS485 is run through RJ45, and you daisy chain all for example VFD in circuit. Pretty handy and usefull.

Yep. I see them in pump control panels all the time where the serial coms between VFD units and the HMI use ethernet cables for links.

Yup, in the 90s, such splitters were pretty common in many offices.

Mehmed tech tips ftw.

​@@carth85 haha 😂

set to half-duplex and collision detection that's baked into the ethernet spec should take care of the rest. LTT didn't show the whole picture with this video.

​@@cyberpass thanks for sharing. I guess they didn't mention it because young tech writers have never worked with pre-Gbps Ethernet standards 😀

They don't want the technical explanation. They just want you to say 'yes it will work' or 'no it will not'. If not, they want you to tell them exactly what to buy instead.
"Make magic box work, me no care how works!"

​@@TheSwayzeTrainExactly

@@TheSwayzeTrain i tell this to everyone who asks me for help but really just wants me to fix the issue and not learn about the issue. its so annoying how little people try to understand the world around them

@@Gahlfe123 The reason is that you, me and the rest of us here, we are MUTANTS! We are abnormal :D

​@@CMDRSweeper 😅 such a sad reality we have reached an age where trying to understand how things work can make us the weird ones 😢.

If I remember correctly, how they even work properly back then was using something called CSMA/CD
Or Carrier-Sense Multiple Access / Collision Detection
Where it will send data and listen for its own data, if so, data sent successfully, if not and heard something else.
It will pause at random time before trying again.

Wifi now days uses a similar technology, CSMA/CA
Instead of listening to their own data, it first Listen before sending out.
It's why more signal causes slower connection because your WiFi is waiting for that slight moment of silent before transmitting

I did the same in the office I worked at. Boss wanted another computer there, and I was too lazy to pull another cable, and he didn't care, or know anything about cabling ... so two 10cm lengths of CAT5 cut from the roll under my desk, two rj45 plugs, four rj45 sockets, and lots of electrical tape, and I'd made a pair of these in 5 minutes. I was quite proud of thinking up the solution then. Pulling another cable would have taken an hour or half. And this was 20 years ago. Switches and hubs were not that cheap as they are today. And required a trip to the city 20km away. The shopping trip would take me half a day, what with searching for parking, etc. That would cost more than the switch. Plus where were we going to place the switch under the table, and it need another power point, which must never be switched off, or the other computer will go offline. My janky unpowered solution worked problem free the rest of the time I was there, about 10 years. It was light enough, I screwed it to the bottom of the table with just one screw.

Yeah, just don't buy chinese garbage. There have been splitters out there for decades that work, IF you use them as they are supposed to be used. And ONLY in that case. You don't even need premade splitters, you can use patch panels or etthernetcable connectors to do this yourself. I used this method over 10 years to provide two connections over one cable, since internet connections was far below 100mbit/s anyway.

Exactly this. I still find these in Businesses to this day! Either 2 sets of 1,2,3,6 for 2 data connections, or 1 x 1,2,3,6 and 1 x 2,5 (for telephony). With vlanning and gigabit passthrough on newer IP phones, they're a lot less common now.
Never buy from somewhere that doesn't display the wiring diagram, but as Linus eludes to, if you're looking at one of these, there is probably a better solution...

​@@andymapp803 I use a pair in my house. Pass Phone/Data from my CPE to the main living room

I've also used legitimate splitters in situations where we needed to preserve vlans and the customer couldn't afford additional in wall runs or more expensive managed switches. Those $8 switches linus showed would strip vlan tags.

I can remember when working in tech support 20 years ago at schools the legitimate ones were used othen as back then switches and even hubs were alot more expensive, t100 was the standard, the only place i saw gigabit lan was between switches

This!! Works great haha

We used to sell these at radioshack when i worked there. had so many returned because people didnt read that you have to hook it up with 2 into it on each end like the one linus made, and it didnt just simply split them like old jacks. they worked great for the purpose they were built.

Old school telco and network guys did this to run 2 x Cat3 over a single 4-pair cable. Works fine for 100Mbps without PoE, but if you want PoE or 1Gbps then you need more cables.

@@isaackvasager9957 Exactly! There are versions that actually work - It just takes a little know-how! I dare say even PoE Splitters - Done it myself for my security cameras: 2 Cat7 Cables split for 4 PoE Cameras.

Cameras would be a place you like to use PoE so you can run all cameras from the switch UPS.

I was wondering the same thing. I guess scummy money still pays the bills

If you have any genuine concerns, you can always send a post on the forum, they have a separate section to evaluate their sponsors.

Yes and no... autods is a tool for those running a dropshipping business

who cares, its not like anyone buys from drop shippers anyway

o i muted it, are they the RAID shadow legends of computer hardware?

I was thinking the same thing. Used them in supermarkets when I cut my teeth in IT back in the early 2000's. In fact, I still have some of those exact same 20 year old splitters in use in my house today!

I know of a national stock exchange which also used them. There's nothing wrong with their use, if they're use correctly.
We often mixed connections, including 2 wire NEC Dterm phones with the use of these splitters and appropriate wiring on our Krone frames.

Sure and why not? Those applications don't really need a lot of bandwidth so if you can provide connection to several devices with no additional electronics by physically reassigning the conductors, there is little reason not to. This applies even more for analog signals which you can't simply feed into a network switch.
Of course, this assumes they work properly, which the specimens in the video don't.

When I worked for A&T we were allowed to do this because most computers still only had 10/100 cards in them and only used 2 pair of the 4 anyway.

Combined ethernet/phone use is why 10baseT (and then 100baseT) ethernet used 1/2/3/6; it meant two-wire rj11/rj12 needed by phones would naturally fit in the middle of the RJ45 socket and use pins 4/5

Yep, my first Ethernet experience was with 10base5, connecting some VAX 11/780 computers. I also hand wired some Ethernet controllers, on prototyping boards for Data General Eclipse computers. However, my first LAN experience was in early 1978, on a proprietary Rockwell Collins network, in the Air Canada reservation system.

I have to say, this video confuses me a bit. This is trying to do something that ethernet should be able to do. It's designed to handle collisions.
It demonstrably doesn't work with cat-6 but is this because it's full duplex, or because this particular ethernet cable works differently in some way?

Yup, they were called CAT5 Economisers when 100mbps was top speed and only 2 of the 4 pairs in the cable were used - of course you needed another one on the other end too.

Back when I ran a computer repair business in 2002 I made several of these for my shop. Switches were.... not $8 back in the day....

Yeah, I've also seen them run to two-port jacks on both sides of the cable run.

Years back, we did this for some computers. Sometimes using it for data and phone for a fax/modem on the machine. This was when companies still need to send faxes for legal reasons.

My office used splitter (rarely) to send a analogue phone and ethernet down 1 cable. The splitters we purchased actually split like the one linus made so we could plug one end into the network and the other into the PABX.

And that's why you lost the Vietnam war! "Hello? Hello? Is that B company? It's no good, Sarge, these PC/Telephones don't work! I think it's this splitter" "Well drop some napalm and fly back home then"

I've done that on a site with AT&T 110 patch panels. The Ethernet connection used two pairs, and one of the remaining two pairs were used for a phone. No pairs were shared between the two devices, and the frequency difference between the Ethernet service and the other service were so different that there was no crosstalk, and each service worked as expected. There were no ethernet errors (switch error counters proved this) and no weird audio artifacts on the phone.

Vodafone tech here. Can confirm. Linus is missing this out completely... As usual.

I agree the video creator doesn't know very much about signal flow and electronics.

I've been splitting ethernet wires for phone and high speed internet in small businesses and single family homes since 1999.

Well...They actually do work! Linus is wrong with this video. Collision detection is built into the Ethernet spec. There was a time when you'd buy Hubs instead of Switches.

@@cyberpass i remember playing lan games over an old hub in the early 2010s. Piece of shit barely worked. Still some of the most fun we've had as kids.

@@cyberpass Really? This can work? In that case I have a dumb question - why didn't it on the laptops in the video?

@@cyberpass did you skipped the video or what.. he did said it work.. but with a huge asterisk of "one at a time not at the same time"

@@Nik930714 For this particular one to work, the best option would be one of the devices being on a crossover cable or cables that are already set up for only 4 wire which they do make. I have one sitting on my desk right now that came with my Phillips Hub. They do make legit splitters that do the same as what Linus showed with their homemade one using 4 wires per connection. The problem is with the very poor QA in many places that can't turn around and rip these bad ones apart and fix them, so they sell them off cheap to unsuspecting techno-noobs.

It's a design fault with this specific one. We used to buy ones that were like Linus' ones.

Bizarre, yes, but also par for the course these days.

Are you really surprised? TBF the idea is that you get the full connection speed to each device if only one of them is powered on at a time. While that may be useful in some situations it's certainly not how most are being marketed.

@@JJFX-
Wow! Is that the most generous of all possible summaries, or what?
"While that may be useful in some situations it is not how most are being marketed."
What it looks like to me is that the design "team" was probably one guy, who struggled to pass CompTIA Networking, if he could at all, or at that approximate level of understanding, anyway. (Does CompTIA even exist still? Never mind, in either case it's beside the point!) If not a literal uncle, somebody fitting the general description of a nepotism arrangement requested the *intended* function, probably in the very terms of a headphone splitter, probably after seeing an attractive couple (or just a noisy couple) using one on an airplane. The nephew did his best, but reported that it can only work for one device at a time, and didn't know what Linus showed: that instead of connecting all 8 wires (which is what prevents two separate connections working as if they came out of a switch or router), 4 wires can be enough *if* you know which 4 wires to connect and how to connect them. So the "design team" reports to the uncle that it only sorta works, but the uncle owes his sibling or in-law (in other words, one if not both of the nephew's parents) a favor, so he says "that's okay, we'll just put an asterisk and some small print on it. Since the lawyers say that's good enough for our pharmaceutical, food processing, and cosmetics businesses..."

@@reed-young Look, I'm not arguing with you or trying to defend it. I'm beyond tired of all these lazy Chinese resellers trying to cash in on selling crap to people who don't know better. All I'm saying is that splitting the pairs does severely limit bandwidth with the trade-off of allowing two simultaneous connections. Most people would prefer this option but I don't have a problem with the other being marketed correctly.
There are cases one might prefer full speed to one device at a time and it's difficult to run power to a switch. However I'd agree most these sellers are just lazy, incompetent or simply didn't even test the product they're buying for pennies on the dollar.

People in the comments pointing out CS/CD is one such protocol.

It's the physical layer that's the issue in this situation which is why you can use a dumb hub and it works fine.

The problem here isn’t even that it’s a two-way protocol. DMX is also a two-way protocol. The difference is that those are engineered to have multiple nodes communicating over the same line and thus can functionally time the data for each fixture (using addresses, universes, etc)

It is indeed a lot more complex. Putting all of it in a comment would have made it convoluted. The main point being that analog vs digital is not really relevant like stated in the video. In fact digital signals can be more suitable for splitting since they are less affected by signal degredation.

@Tajl3r they do decline some sponsorships, in fact a lot of them.

y the F you care??? 😂

its amazing how affordable a proper switch is and these horrible spliters are still around.

We did this a lot around that time as well for when we needed another network port but pulling another line was not feasible and the reduced speed you get by using half the pairs (per device) was not detrimental.

We used them too, years ago. To send two networks over one cable, because we didn’t have managed switches with vlans that time.

Yeah, the passive feature (no outlet needed) would be useful. Even if a switch only draws a few watts, why keep it powered 24/7/365 if your Internet connection is 100mbps or less.

@@Pyrogman245 -- dude drop shopping is an actual thing that people do outside of TikTok scams it literally just means you don't store your own inventory

-- drop shopping literally just means you don't store your own inventory and rely on another company to ship things out for you, acting like drop shipping scams define all of drop shipping is like calling gift cards a scam because of gift card fraud

​@@SkedgyEdgy it's getting to the point where the good ones feel like the odd ones out.
Drop shippers are 90% of the scams I see online these days easy.
Even if the scams aren't that bad they bypass important regulations and allow people to pose as companies with zero liability or accountability. Like that cat litter box that decapitates cats.
Ive seen them trying to drop ship medical resuscitation devices.
Consumer rights and protections are there for a reason. There's a reason why its expensive to register and insure a legitimate company and people still do it.

I know I wouldn’t notice. Speeds here in Jamaica are on average 70mb/s, it’s a good day if we reach 148. So I definitely won’t notice anything wrong with my speeds.

Still seeing some customers who have those horrid splitters in their inventory. Since Fax won't die out entirely in germany, there are still people with genuine 90s Fax machines and these splitters.

​@@KR4FTW3RK fax is still commonly used in many parts of the world due to its reliability. it's very common in the medical field, for example, because it's possible to fax data over good old copper wires with less risk of failure (power or internet outages, internal networking failures etc). plus, it allows different organizations and technologies to reliably communicate with each other as it's such a long used method. another factor is that it's very cheap. fax machines are very simple, whereas modern hardware and software can get very pricy. i guess another benefit is ease of use: you just need a number, papers and a machine which can allow for anyone to easily use them without needing training. however it's slowly being phased out these days, mostly due to the burden of needing to redigitize records into more modern internal systems and the costs associated with that

@@kh-ro5su ah yes the thought of billions of medical records being transmitted entirely unencrypted. lovely.

@@KR4FTW3RK yeah it's a weird thing. on one hand it is secure in the sense that it is using phone lines rather than internet. you would essentially need to hijack an existing number - which isn't hard...open up any telephone junction in your neighbourhood, attach some alligator clips, a device and you can listen/make calls like phone phreakers used to do as well as send and receive faxes (though they often need passwords) using a number that isn't yours. it's also far less susceptible to abuse because very few people are going to bother anymore. for example, someone could hijack a fax line and start receiving prescriptions and attempt to fill them at a pharmacy. but despite how long and how much fax has been used in healthcare, you don't really hear of much abuse - mostly because there's very little point. there's not much reason to want some strangers medical records or to risk charges using someone else's prescriptions. it's why despite its insecurity, you rarely hear about abuse. but yeah it's time to pivot away from the technology at this point, it'll just take time due to the complexity of healthcare related information technology

@@kh-ro5su I think fax as a technology is absolutely fine but the implementation with these fax machines is icky to me. I work in IT services and analog fax machines are impossible to troubleshoot from afar. In the days where all the communication a customer does goes via firewalls and managed switches over RJ45 to every workspace, I don't want some analog fax machine sitting in the corner, doing critical work for the customer. Its nonconformity to everything else is a big part of the problem. I'd get a software based fax... there are tons of them.

thing is, a lot of modern devices still run networking when on standby, it'd need a full no-power situation. and if misconfigured to bridge certain connectors, may still fail.

They also make sense as diagrammed. His little test setup may have had a bad product or he bought from a scam company but that doesn't mean there aren't devices out there. There are "splitters" that do split one cable into 2 separate 4 wire connections and both can be active at the same time. You have to have 2 ports on a switch to one splitter and the 2 devices on the other. You will need a pair and they should come as a set if they are legit.

@@jeradw7420 It's neither a scam nor a bad product. It's a splitter for ISDN network, not for ethernet. It's simply the wrong product. What you describe correctly is an ethernet splitter.
Sometimes exact wording is important. Neither "network splitter" nor "RJ45 splitter" means anything. You need to know if it's an ethernet or an ISDN/S0-Bus splitter. Obviously the product in the video is the ISDN/S0 splitter.

@@oleurgast730 He addressed the fact that some of the Network Splitters are somewhat legit (you're still better off buying a switch as they are cheaper, safer, and properly share bandwidth) but the way the one he bought (and many, many others) are advertised say nothing about being ISDN/S0-Bus splitters. They simply claim to be Network Splitters and considering the age of Amazon it's not like these are some ancient product entries built before modern networking standards. Even if they've accidentally created a somewhat legitimate product for really old, niche systems the intent of the sellers is obviously to scam people who don't know any better. Even someone who's fairly knowledgeable about computers could make the mistake of buying a splitter thinking it had some actual logic to it.

i was pretty sure my buddy had a splitter in high school and it worked fine. Glad you commented. This was '04.

I used a couple of such splitters a couple years ago. You can still buy those from reputable electronics shops

Yeah I did the same when I was 12, ended up doing modem to my PC then crossover cable to my sister's PC so we could both share dialup 😂

Came to the comments just to post about this. The $50 splitters were also quite a money spinner for the bookstore - and in our case the dorms were wired for single jacks back when it was only expected one person would have a computer. There were even a few switches that were designed for this, 3Com if I recall, where you could configure the odd ports on a switch to carry the signal from the adjacent even port on the switch, so simplify install.

But now a days...$9 switch works better and is cheaper.

I second this. I used splitters like these that actually worked 15-20 years ago. Working ones do exist, although given Amazon's current trajectory, I'm not surprised that scams are so prevalent now.

@@isaackvasager9957 Back in 2010 I literally just used a switch bought for 10 USD used... So yeah lol

@@isaackvasager9957 Not in a university, you have to have port-level logging enabled in the dorms for compliance reasons, at least if the university is following the law, so the only switch allowed would be a university managed one, which are many hundreds of dollars.

What's a PoE case?

Well said

@@TheZoraman Path of Exiles build

@@TheZoraman I meant "useful for power-over-Ethernet situations", not "cases" as in physical boxes.

@@jipeh As an avid path of exile player that's all I could read it as lol

Well...seems like he didn't learn much. Completely ignored the fact that Layer 1 tech was the norm 20 years ago. The ubiquitous WRT54G even used a basic hub.

@@cyberpass Wait, it wasn't a switch? Are you *really* sure?

@@maverickbna I am pretty sure it IS a switch. If I remember from my OpenWRT flashing adventures some years ago.

I was wondering about that if he had only used one and a cross over cable it should have worked out of the box if half duplex is even still supported on consumer grade switches these days.

​@maverickbna it was definitely a switch. That's not to say some early home routers didn't have a hub I remember selling one model of GVC that used a hub. However that was before any router supported wifi, in fact that old GVC had a serial port so you could share a dial up connection with an external modem. (It wasn't even configured for fail over, you had to pick, ppp, ppoe, dhcp, or static)

Yeah I was wondering why it didn't work, maybe the router/NICs don't support CSMA/CD anymore? Hubs used to be pretty common from what I've heard

@@spicybaguette7706 I think it's because they used two dongles and that way the two ports where on the same switch - most switches will shut down the connection in that case.

CSMA/CD is only on half-duplex connections, I had similar "splitters" back in the day and it worked fine for 10Mbit/s half duplex. (but used only a single "splitter")

It's even better: There's a techquickie mentioning Hubs, that tells you that this thing should work like I described: ua-cam.com/video/Vc16CCAAz7Q/v-deo.html

It only works if TX goes to RX of the other plug (with diode) as well as to the TX of the output cable, and RX of output cable is connected to both (also with diode to prevent back feeding from the other port)
This tells the two devices when one is using the cable already
The wiring here is incorrect and doesn't allow this behavior

Yeah I am actually very confused why this did not work. Ethernet spec has the back off when a device notices other devices talking, so it should actually work with multiple devices (although with worse ping if all devices are talking at the same time)

The technique was called CSMA/CD, but apparently it was deprecated in 2011

Deprecated. Huh. Who knew?

@@shadowpenguin3482 If you set the NICs to half duplex you think it'd still work?
EDIT: ah nevermind, I read the LTT comment. Even if you enforced CSMA/CD the cable is still wired improperly.

Oh yeah, this is exactly what I was thinking, “that’s how the Ethernet spec was supposed to work!!! Y U No Work???” … Deprecated. Seems like that’s something all those sources maybe should’ve mentioned.

Thank you! Not everything plugging into an RJ45 jack is using the Ethernet protocol. RJ11 can plug into RJ45. (As can many hobbyist projects.)

Also importantly it will not decrease the volume which the video says it will. The amp will work harder but unless it fails due to impedance decrease, it won't be quieter. Most headphone amps can support quite a few in my experience.

what if you connect the headphone in series?

@@KarthikeyanDuraivelthinking of how to achieve this…maybe mono works and that will affect volume I believe

@@M_Jaggard pretty much all headphone amps i've seen use protection resistors, or they would burn if:
1) it's not fully plugged and shorts signal to ground
2) jack is detected
3) some music is playing
obviously it will become quieter with resistance in series

Indeed. Absolute barbaric, abusing the voltage drop trough the diodes to prevent feeding back to your own RX, but still high enough voltage to sense the other two end. Back in the time I've built similar contraption, with using two cards in one machine bridged together to get 4-5 machines in a shared 10Mbps half-duplex network. It was used in multiple lan parties playing Quake and UT. Bunch of soldered wires and splices, looked like a bad sci-fi prop.

@@mtx33 no it doesn't work like that way unless you don't know what you're talking about.

@@mdkhalidhasannahid4148 with all due respect, please read about passive ethernet hub design with anti-parallel diodes. it's working with exactly 3 ports per adapter(obviously not stackable). The signals are not in 10Base-T spec, but still within tolerance. The trick is to create two "rings" with the RX/TX pairs on the positive and the negative side separately with ati-parallel diodes.
The schematic follows A,B,C the computers, equal sign represents the diode pairs. Positive ring (pin 1,3) : =TX+(A) =RX+(B) =TX+(C) =RX+(A) =TX+(B) =RX+(C)= and back to TX+(A)= .
Negative side (pin 2,6): =TX-(A) = RX-(B) =TX-(C) =RX-(A) =TX-(B) =RX-(C)= and back to TX-(A).
There is an excellent video by Clifford Long here in YT ua-cam.com/video/FkHuOrr_WNk/v-deo.html

@@mtx33 not it won't work either. It could be possible in the past. But these connectors aren't wired correctly. The transistor pins of receiver end and source aren't the same lane connection. It won't work in million.

@@mdkhalidhasannahid4148 sure, tell me it didn't worked and i just imagined using it or all the people used the similar adapters. And the linked video is fake too. All 10Base-T compatible card should handle this arrangement.
There are no direct transistor connections in twisted pair ethernet, but Ac coupler/isolating transformers between the negative and positive pairs. The whole purpose of this arrangement to prevent your computer to "hear" itself while sending data (by attenuating the voltage levels smaller than the threshold of the comparators inside the PHY), all the other collisions are handled by CSMA/CD in the spec. Honestly I don't know, why are you still arguing.

Digital is just a specialized case of analog anyway.

@@chaos.corner ? Explain, please!

@@maverickbna analog signal in some order called digital
0/1 in cable are some voltage turned on and off

It's not a minor correction though, it's a pretty important one.

​@@maverickbna the only difference between "analog" and "digital" signals is how we decide to interpret them at either end. along the wire, it's just a signal. and as mentioned, the ends can interpret that signal as something like a P2P connection or something more akin to a bus, regardless of its analogyness or digitalyness

I've never heard of CAT4 cable being used for Ethernet (or anything else). The first cable type was CAT3 for 10 Mb, then CAT5 for 100Mb & Gb.

4Mb/s in here if you are lucky and no one is using it. Usually between 2-3Mb/s here.

Yeah, I was really annoyed when they never even mentioned CSMA/CD. Seems like they needed one of the more technical writers on this one.

I was thinking the same thing. These are "hubs" as opposed to "switches". I do wonder why it didn't work. One guess is that the switch had some sort of loop detection and shut down the ports? However the two devices should have seen each other (assuming that they support auto-crossover which IIRC is now required for gigabit and above devices). I'm not familiar with Windows networking but maybe "No Connection" was referring to the inability to get an IP address (as there is no DHCP server on that two device network)?
However there is one major problem with the wiring diagrams shown, it makes no sense to plug in two ports from one side into the same switch. In fact I suspect that if you used the splitter on one end and just plugged the wire on the other end into the switch directly it probably would have worked (or just left one of two wires from the splitter unplugged). That wouldn't have triggered any loop detection on the switch and should have worked properly with collision detection.
(of course it will get very slow if both devices are trying to transmit at the same time as there will be backoffs and retries, but receiving should be fine)

honestly, today was the day I actually found out that ethernet has CSMA/CD. I know they had something like CSMA/CA but i thought is was some rarely use thing.

No they don't. Collision is built into the protocol but the only thing that works remotely like this is coaxial. You need a hub at minimum for joining multiple devices this way otherwise hubs would not have been a thing.

@@Broken_Mesh I think you're correct that it is very rarely used, likely due to the ubiquity of cheap switches. It's still something they teach in 100 level college netwrking classes though.

Half duplex still used 2 pairs.

I think you are missing one important thing there: For half duplex / CSMA/CD to kick in, you need two devices sending at the same time, to another one that is listening. This involves a bunch of diodes to get wring correct, or an (active) ethernet Hub.

@@jdgmeester Not sure if CSMA/CD would work on differential signals. Old shared-medium ethernet standards used coax and single-ended signals, and these were 10BASE-something. For CSMA/CD to work properly, there is minimum packet length (transmission time) requirement for a cable run of given length, which makes it impractical at higher speeds.

I also still have 3 or 4 pairs of these (correctly wired) splitters around. In my old rented flat they were ok to dual use a network cable for a tv box and a PS4. Internet speeds above 100Mbit are sadly still on the rarer side in germany, so that's an OK compromise. In my newly built house everything of course has proper CAT7 ethernet, but I'll keep these things around. Printers and phones will never (in the forseeable future ;-) ) need 100+ MBit speeds.

Most people who pay for gigabit internet in their homes are leaving a ton of bandwidth on the table the vast majority of the time. Outside of WFH or NAS applications, generally the only real reason to have gigabit speeds in a home device that most people will care about is to be able to brag about how fast their games are downloading. Even 4K streaming doesn't even come close to saturating a gigabit connection. I can see these adapters still being entirely relevant today, especially in older homes and apartments that aren't wired for gigabit anyway.

My house uses this now XD
Although they are RJ45 jacks not ethernet

100Base-T only uses 4 of the 8 wires in a Cat-Cable .
We regularly use these splitters for Surveillance Cameras and SONOS Speakers in commercial installs
You connect the first splitter with 2 cables to your switch. (Remember, it just routes the 4 used wires for each connection to the “left & right” within the 8 wires of the >Cat5 installation cable in the building.
On the other end, the 2nd splitter routes the 8-wire “left & right” to the 4 wires used by the 100Base-T connection for each of the 2 device connectors.
There you plug-in your left & right Sonos speakers and enjoy having both of them wired through a single cable in the ceiling.
It’s shocking that Linus could not figure it out, but that’s what makes him just a clown compared to MKBHD.

"just a clown" ... I've now watched 2 videos by him (this one and a MoCA & Powerline install at "Colton's") and I'm stunned at the superficial, sketchy coverage. It doesn't give me any confidence that I should use any LTT videos to learn about topics with which I'm *not* actually familiar.

Tell me about it! When these were incorrectly wired, split the pairs and then connected to long runs, the error rates reported by the switch were through the roof!
But of course the guy who made it insisted that it was correct, because he tested it with one of those super cheap DC based continuity testers, which cannot find split pair problems because it just tests for continuity and not SNR with balanced AC signals etc. LOL

... cause the next guy's gonna be you. :)

Noticed this too. If the splitter isn't fast enough for moving big files, then neither is a $9 10/100 switch. The Netgear GS305 is $15, just get gig and thank yourself later.

Oh yes, especially thick coax vampire plugs. Work as it says on the tin - it bites into existing coax cable to connect another PC to it - and all of connected computers can communicate with each other. This was the original intent and meaning behind "Ethernet" name - it's a network connected to "aether" meaning everyone connected to everyone.

@@jwhite5008 I've heard about those vampire plugs before but have never seen one in person. Unfortunately having every system able to talk to and listen in like that also severely limits the potential speed of the network/causes latency issues (presumably the same reason we don't use backplanes anymore). It would also be a security nightmare even within a residential setting (IOT devices are bad enough with the relatively secure standards we use today).
That does remind me of a certain infamous story about a message that got sent to almost everyone on the early internet. Unfortunately I can't seem to find the right search terms to bring it up but as I recall someone sent a command in an early computer asking his coworkers to roast him thinking the command would send the message to everyone on his local network but it actually sent the message to everyone on the HOST file which was basically the entire internet at the time. I think they were using Sun Micros but it's been a long time since I've heard the story so I don't really remember the details. Pretty sure I heard the story told on ComputerPhile.

I'm guessing this is a case of everybody on this channel being too young to know about these and the early ethernet standards! 😂

hummm it might work if you reconfigure the microcode on the host. In this case the network switch. BUT!! at that point you are VERY knowledgeable of what you originally bought. haha

if you don't look at the electrons or point a camera onto 'em they actually go left and right simultaniously.

At that point why don't just buy a switch?

You are horrible man!!! 😂

And don't turn it upside down, or all the packets will fall out.

A hub, simply put, is basically a dumb switch. It has a single I/O that communicates with the rest of the network, and all other ports connect to endpoints. Regardless of a message’s destination the signal propagated to every single port on the hub.
This is in contrast to a switch/bridge, in which a signal is only propagated to the correct endpoint using a physical address.

And you wouldn't need two inputs in the garage just splitting on the other side.

The original Ethernet did that on 10base5 "Thinknet", 10base2 "Thinnet" and 10baseT on twisted pair, when used with a hub.

No need for power and takes up less space.

If you need to send two seperate networks/VLAN's for example.
Sure you can do that with a managed switch, but a $10 switch isn't going to be managed, and even if it was, it's going to be pretty shit.

Might be useful for connecting two 4-line phones to the same jack, assuming that there are actually any 4-line phones that use an RJ45 instead of two RJ11s. (All the 4-line phones I've ever seen use two RJ11s..well, actually, RJ14s).

Bingo! With structured cabling, the common Cat5 wiring from the network room to all cubicles would be 1 or 2 Cat5 connections for any signals needed. Usually one is used for Ethernet and the other is a telephone. POTS (analog) and ISDN (digital) lines both allow splitting with these splitters no problem . If using a PoE IP phone on Ethernet, it will often contain an Ethernet switch inside so you can plug in the PC without a second network connection to the wiring room . Note that POTS uses only one pair, so the other 3 pairs can be used for other stuff such as another protocol in a degraded mode .

@@johndododoe1411 A splitter like this would work for connecting two 4-line phones to one RJ61X jack, but I've *never* seen a 4-line phone with an RJ61X jack on it, they always use two RJ14 jacks.

exactly the case, audio and video are what those splitters or meant for, not network transmission.

@@brianleeper5737 That's not the use . POTS and ISDN S-Bus both allow connecting phones and modems in parallel. For POTS the telephones will all be on the same call . For ISDN, the devices will share the digital bus and can possibly be commanded to use one 64Kbps digital channel each, not by wiring but by digital negotiation .

Yeah, splitters have been around quite a long time. One on each end, but limited to 100 Mbps. Only need 1, 2, 3, 6 for 10/100. Other uses were for splitting a single run into one data and one (or more) phone pairs.

I don't know if this happened strictly after he stepped down as CEO, but it has generally happened. A while ago, a lot of the videos were hosted by the other guys and it was just OK. Now that Linus does most of them, I'm watching more than ever. Nothing wrong with the other guys but Linus has always been more fun to watch, for whatever reason.

@@AntisepticHandwash yeah same sentiment here, and tbf also not knocking the other guys, but nobody is going to have more energy than linus, this was all his creation, it's his pride and joy, you can't fake that kind of energy

@@R1PPA-C 💯

bro it hasn't even gone into effect yet

Not all phones; especially office environments, only use one pair for tip & ring ( trx/rx) . On a 4 pin plug. Center pair is tip/ring. Next (outside) pair, is for line 2 ( old days ) (usoc). If you had a 6 pin phone plug in your hand. The wire on the far right ( clip up ) would be thought of as pin one (data) But in phone is actually the start of the third pair, or line 3 in a 6 wire phone jack.

@@snowflakeslayer3075 Yes, there are some other use cases too and phones and their connections are not always straight forward. And to complicate things, modern switches can detect the lines connected and make things work anyway, especially in offices.

Eh, it's a bit too close to being misinformation. The specific one they bought may not have worked, but it's a perfectly viable solution that I've used both privately and at work many times back in the days. I haven't had a need for them for a while, but I've never had any issues. Linus's own version is how they're normally wired.

Exactly what I thought.

Pretty sure HDMI is also bidirectional, with the receiver being active, and that this definitely wouldn't work for the most common HDMI over Ethernet implementation HDBaseT

This might not work, as HDMI also requires a handshake between both source and sink. The third device would need to be able to just accept the data and not require that handshake and would not be to spec.

I love that you recall this so vividly. I always grin a little bit when I am terminating any CAT cable, because I know the very act of doing so innately introduces one more point of failure, complexity and latency. 😈

@@LordSirNelson hehe, I have a weird memory, can't remember where I left my keys, important notes for work, but I remember that time I was in the ceiling at Macy's needing to splice cat5 because the guy I was working with didn't listen to me and pulled too short a run then made me climb up in that hot ceiling because I was the newbie to splice that which shouldn't be spliced. That probably connected the 1 bad register that always had issues with the credit card machine LOL.
While you are reminding me of this, and failure points. One failure point using too long a run with cheap routers. cheap router + cheap network card + cheap 1000' cat5 spool = why cant I make a 50' patch cable. lol.

@@Mikej1592Let me guess, also too cheap to even consider at least a partial PoE to give it at least the slightest chance of developing sufficient signal strength to be reliable?
It always amazes me how people love to fuss about their network performance but when you get into it you find that they did things like...IDK, build their antennas too short to ever reach their intended targets (hat-tip salute to #LTT 😉), never run regular systems checks or at least consider routine preventative cabling checks or maintenance.
On the other hand, these same folks also seem to be incapable of keeping their hands off fiber implantations, and are always wondering why their performance is degrading quicker than expected.
“It’s call Entropy and it’s accelerating because you can’t keep your damn dirty paws off the cables and terminals. Ya damn dirty apes.”

So it's very interesting that this is what was taught to you. The wires do have varying lengths and here is the reason why.
When sending electrical signals down a copper wire, it is susceptible to something known as electromagnetic interference. Electromagnetic interference occurs when two electromagnetic fields occupy the same space and then the signals may cross over from one field to the other.
Inside of an ethernet wire, there are several wires and there are electrical currents (and subsequently electrical fields) flowing through each one.
To minimize the amount they talk to each other, manufacturers of etherent cable use 2 techniques.
The first is they twist the cables. The twisting causes the electrical current to shift in polarity on every twist effectively recreating its own signal multiple times over and over again. The second is that they twist them at slightly different rates. This is so the polarity shifts are never perfectly synchronized across the different pairs.
The side effect of twisting the wires at different rates is that the wires are then slightly different lengths

Correct me if I am wrong here, because I am not an electrical engineer, but the manipulation of the wires via twisting creates resistance in a manner that becomes virtually self-regulating for quite some time.
Meaning the intentional asymmetrical twisting makes use of EMI to create resistance throughout the entire cable. No?
If not, then I too could benefit from how there is a functional difference between one philosophy and what is proposed as a different school of thought.
To my layperson understanding, one is simply the more concise explanation featuring the outcome as the focus, while the other focuses on the methodology-while both produce the same outcome.

I actually tried to find one of those a few years back. I did find one but it was discontinued. It would be very handy.