How Cell Service Actually Works

This video single-handedly filled a huge gap in my knowledge about everyday things. Thank you

I've done communication engineering courses, the amount of background requireded to understand how this stuff works is crazy. The fact that you managed to provide a Layman's explanation for such an advanced topic is very impressive. No Fourier transforms or complicated math, well done.

I work on cell towers, just like the guys you see in this video. We don't need to know all this stuff for the job , but it's good to know. It's too bad that there isn't footage of the small buildings (shelters) that accompany cell towers. They are quite complex with all the wires and hardware inside, along with the great deal of cabling that each cell tower has.
This is one of the greatly underappreciated jobs in our modern society. The guys don't get paid enough for the benefit that each user receives every day. Imagine the coldest and hottest days of the year for you and spending 6+ hours a day outside doing physical work. The wind speed multiplies with every small increase in elevation as well.

I watched several sections of this video repeatedly so I could understand what was being explained. It was like attending a Telecommunications Engineering Lecture but with a super interesting professor who had amazing visual aids to explain concepts and and you could ask him to repeat what he said multiple times until you got it. This is the way learning should be. I knew parts of this earlier but never has anyone explained so clearly everything starting from scratch. Thank you so much. More people need to watch this.

my dad told me that when he dropped out of school in the 70s, his dad asked him what he wanted to do with his life-- and he told him "i wanna know how they take a signal out of the sky and turn it into something you can see or hear" .. he ended up becoming a tech that specialized in repairing antique radios and he was heavily into tinkering with new electronics as they came out, his room was covered in antennas and oscilloscopes, and he was always very excited to share any stories he had about broadcasting and loved finding out stuff like this
he passed about a year ago but i'm very sure he would have loved this video, great stuff

This is one of those video’s where the transition between “duh, this is basic stuff” and “wow this stuff’s incredible” happens without me noticing. Keep up the great work!

Reminded me of a lot of statistics we had to do in school around the topic… Some of the topics he discussed in case you’re interested:
AM - Amplitude Modulation
FM - Frequency Modulation
Symbols
PSK - Phase Shift Keying
BPSK - Binary Phase Shift Keying
QPSK - Quadrature Phase Shift Keying
QAM - Quadratic Amplitude Modulation
8PSK, 16PSK, constellation diagram
TDD - Time domain duplex
OFDM - orthogonal frequency division multiplexing
CDMA - Code Division Multiple Access
SNR - Signal Noise Ratio
BER - Bit error rate

As an electrical engineer, I remember learning all of this in my Communications class, but it literally all flew over my head. But Sam was able to get it understandable in less than 15 mins is astounding

You packaged a hugely complex object into an understandable format without using formulas. That's very impressive.

This video just blew me away. To break down such a complicated technological subject, starting with the nature of light itself, to transmitting thousands of messages simultaneously, step by step, so that each step builds on the other, is a very rare talent. I have a new respect for our telecommunications system and the people who make it work.

I have been in the wireless communication field for over 20 years. I have seen the growth and change. Brought many memories when i started working on analog networks, IS-136, GSM, CDMA. Very well done!! You managed to explain very complex processes in a manner an average person can understand. Mobility, how the phone switches from one cell to the other, is the next hurdle. But overall great video. Congratulations.

I just bought CuriosityStream specifically to watch your "The Colorado Problem". As someone who has lived in Colorado for the last 3 years, I had no idea how interesting the task of "getting everyone water" in the state (and southwestern part of the country) could be. Happy to support you and the others that spend their time educating us. Thank you!

Yeah. This is a masterpiece. I’ve been designing cell networks since 1997, so this is second nature to me, but I’ve never seen such an non-intimidating explanation of things like QAM and CDMA. Like 100% of all books whack you over the head with matrix transformations or polynomials on page 1, and they lose all but the most determined learners right there.

I keep expecting the Half As Interesting guy to make a terrible joke but he's actually just really helpful over here

The way the video evolved from the very basics, easing things up until it reached the very complex concept of CMDA is just genius and very engaging! Kudos to the team for a job well done. Probably one of the best explainers I've seen.

You are absolutely an amazing teacher, illustrator, storyteller, and information gatherer.
Thank you person or persons behind Wendover Productions.

As someone who works in the telecommunications industry I want to thank you for this video. Making such a complex topic relatively easy to understand. The average consumer gets mad when their data slows down or call gets choppy, but they don't understand that there are quite literally physical limitations to cell service. Now throw in multiple telecommunication competitors all fighting for spectrum and the logistics of providing cell service gets even more complex.

As a Telecommunications engineer graduate, I wish I had seen this video a few years ago. Really helpful and well explained information

Brilliant. The communication engineering courses we went through broke our spirits on complex polynomials and transforms. To see TDMA QAM and CDMA explained so clearly was mind blowing!

I hate you for being better at explaining these things than every engineering professor I've had, and yet I just have to listen to you for free even if it's mostly just surface level. I love you for all of it, and nebula is super worth it, thanks for your content

As an EE who specializes in RF for the last 20 years, thank you for this video! Well put, and not too complex. To me, even now, CDMA is black magic. I get how it works, and have even written baseband code for it, but it just still seems like it shouldn't work. Now we're multiplexing signals over codes, freqs, amplitudes, phases, etc, over multiple spatial streams all at once. I really think the average person doesn't get how unbelievable the physics is when they use LTE or WiFi 6 to do something basic. 1024 QAM should just not be a thing.... and yet it is.

I’m an Electrical Engineering student and I’ve studied communication systems, I did not understand most of what I studied until this video. Thank you.

This is an amazingly well done video. I've been working in the cellular industry for well over a decade and I've never seen these fundamentals explained so eloquently with amazing visualizations such that it can be informative to somebody at any level of experience.
I expect that I will be sharing this video with future coworkers for many years.

this is such an advanced topic to understand,we had an entire subject dedicated to cell networking. But you really put things altogether for us to understand, i was even able to recall some formulaes just by watching this video.
Great work man👏

Impressive video! Having worked on 5G in the telecom industry recently (backend, not radio) the amount of data the teams working on radio figured out how to send seemed like magic. After this video it doesn't, bravo!

Really nice explanation of CDMA. Just a note, that didn't seem clear to me from the video but I think is important: when he says that we add the codified messages to obtain that sum, out of which the receiver has to get the messages back, we don't do the sum on purpose. It's the media, the way the messages are represented is such that if two users send their message at the same time to one receiver, the receiver gets the sum of the two messages. The ability to craft the messages in such a way as to always be able to retrieve the original components in a consistent way is where the mathemagic happens.

Just as cell service tries to cram as much data as possible, you've managed to pack so much genuinely interesting information in this video while still making it understandable to the average person. I've learned so much. Thank you.

That’s an incredible education video and the amount of work required to make must have been insane! Well done, Sam from Wendover!

Whoever does the writing for these episodes consistently impresses me with how thorougly they actually research/comprehend the video topics. The videos on air traffic/planes seem like they could only come from a professional in the industry, even this one has that same feeling.

The Wendover team doing great work again!

This is hands down the best, easiest to digest and highly informative explanation of such a highly complicated process. I will be saving this to my favorite list to watch in sections over and over...
I truly thank you...🙌🤯

this may very well be the best explanation i have ever seen for anything ever. Absolutely incredible the amount of thought, research and production. A+

As someone who deals with this for a living, you really did a great job at explaining it.

You just packed a half semester class of "Wireless Communications" into a 17min video. It was actually one of my fav classed back in my Uni days and one of the Few passing with A

I was part of a group in college who did a huge write up project on the Colorado River and water issue(s) way back in 2008/2009!! Already subscribed to Nebula/curiosity stream So I’m really looking forward to the documentary and any new info you found. Thanks for the heads up!

man I love your videos! complex topics explained with step by step information and complemented with simple but smart graphics.
always a joy and happy to see nebula grow :)

as someone who recently went to school for this, and now works with communications & two-way radios - this was really well done. it helped fill in some holes in my knowledge for sure.
next up, i challenge you to make a video so easily understandable about Antenna theory

I’m a radio frequency technician, with a specialisation in LTE; the was this was explained was amazingly simple and very accurate.
I’m totally going to share this with people who I’m trying to explain cellular standards

This was really phenomenally explained. It's at great level with just enough complexity, but not too much that I can't share with with folks without a science/math background. Thanks!

Awesome video! I always wondered how cell networks worked, and I really like the format you put it in. Exploring the history and basic concepts, then building from there made the concept very approachable.
Also, I caught the “meow” at 14:48. I don’t know if that was intentional, but I want to think it was and I laughed.

I have not actively watched TV in years and I cannot thank creators like Wendover enough for helping me make this transition. I went from absorbing unhelpful and mainly useless information to constantly having access to high quality intriguing content. Hats off for another wonderful video!

8:54 all I'm hearing is that Hexagons are the Bestagons

I've watched this multiple times, I think it is by far the best video you've ever done. Thank you & your team for making this awesomeness!

No flashy introduction. Just straight to the content. Best channel on YT!

I LOVE the depth on this video. I feel like I've seen a billion videos with the first layer of knowledge (frequencies). But I'm so glad Sam is willing to go deeper.

As someone who has been involved in communication for the past twenty years this video best sums up what is taken for granted by every 15 to 25 year old using TikTok and Instagram.
This is why AT@T was slammed when the iPhone dropped. They literally had no idea what to expect and no system in place to handle that much traffic all at once.
What we have today is just shy of magic and is why when it does fail to meet expectations people freak the F out.
Also this is your best video ever. Bravo. 👍🏻

As many times as I've heard explanations for AM, FM, and then the more advanced technologies for the different Gs; this is definitely the best explanation I've heard. Really impressed.

Amazing job simplifying this amazingly complex topic. Thank you very much for sharing.

It’s amazing how humans have been able to create these things all within the span of just a few decades, and most of these upgrades within just the past few years. Truly amazing how far we have come in technology in the past century.

"This is electromagnetic radiation. *You can't see it,* but it's there."
380-740nm range: *Am I a joke to you?*

Absolutely brilliant video. Described at the exact right pitch and speed with great examples. I feel like a genius now as I understood a pretty complex subject. Well done indeed.

That was a really nice explanation. Didn’t think that it would be possible to give a working overview in 18 minutes. I am impressed that you actually looked into CDMA, that boggled my mind when I learned about it in my telecommunications class.

I spent my time in the military as a radio officer, this video summed up about 3-4x 1-2h lessons on how telecommunication works with out mathemstics like fourier etc… Fantastic job!

“This is where it gets complicated.” Safe to say for me it got complicated well before that point. Great video.

One of your best videos ever. I had a basic understanding of how a phone communicated with towers and a network, but had no idea how much ingenuity was required to overcome the limitations of carriers having such a narrow band of the electromagnetic spectrum.

Aamzing video! I knew most of the underlying physics, but towards the ent there were a lot of thigns that just suddenly explained new things to me! Loved this lightbulb moment

The fact that u can make such a hard subject understandable is amazing. Keep up the work, love it!

I'm impressed at how good this explanation is. Respect for the amount effort that must've gone into writing and visualising this!

I am very, very impressed with this video. I coordinate RF for live shows, and every once and a while I get to nerd out with others about the concepts of AM, FM, PSK, etc… I have NEVER seen it explained so well. Excellent work!

I was captivated by this, like you explained this topic and held interest so well

I’ ve been doing wireless R&D work for almost 15 years. I watched this video with a skeptical eye but man this is really well done. Next time someone asks me what I do at my job, I’ll send them this video. Incredibly complex knowledge summarised so brilliantly.
Do a follow up on 5G too.

Interesting note: The noise/interference (mostly) older cell phones caused in audio equipment was due to TDMA. Switching the radio on and off hundreds of times per second induced AC voltage in nearby wires, that could them be amplified by stereos, TVs, Etc. and heard as a buzz from their speakers. CDMA creates much less audio interference, as the radio is always on, and there is no modulation of signal in the audio-frequency range.

Excellently presented! Usually Wendover videos are too jokey for me, this was perfect.

Man you have such a unique and inherent talent to make complex ideas into simple ones. Thank you so much for your work, its inspiring

As a former Telecoms Engineer, I had been slow clapping throughout this video. This was so well written

Enjoyed the video - just one small correction. At 1:50 you say a 2M wave (the size of humans) is called a "Ultra High Frequency Radio Wave". 2M waves are Very High Frequency (VHF). Ultra High Frequency (UHF) is in the 70cm range (about 1/3 as long).

A fantastic video! I'll always be grateful to WP for this knowledge. Please make more videos explaining the science behind various other technologies.

That is by far the best explanation that I ever saw about this topic! Although I studied Computer Science it was never explained that good. I really appreciate it!

I remember those car phones. In terms of call quality, it was one step up from tin cans connected with fishing wire. The sound quality sucked, and there was a significant delay, so after you spoke, you had to remain silent for a few seconds to give your signal time to get to the listener and for the listener to respond. And if either of you happened to speak a second too soon, it would often lead to a spiral of "Sorry, go ahead..."

8:45 Hexagons are after all the bestagons

Wendover is my 'go to' source for videos that provide some basic info on something I don't know much about but should. Need to be able to pay attn - so is great when have to do something mindless like filing or cleaning and making good use of the time

This was a great video! I like the level of detail and how you broke it down in a way that I could understand. Thank you.

Loved this! As an Electrical Engineer that specialized in wireless communications, this was a wonderful refresher - the information presented is accurate and is essentially a slice of what you'd learn in a Communications (the engineering kind) class.

This is one of your best videos ever created, I've always been fascinated by cell phones & how they operate. This was the best produced video that went into a section of understanding I didn't even consider thinking about, the protocol. 10/10 content!

jeez, i have been studying computer science for the past 6 years of my life, but I have never seen any explanation as perfect as this, good job!
I do not even understand how people survive without watching wendover contents. this is currently the best channel yet.

Great Video. Very informative! Now I know a little bit about how complex the cell service is. Thank you for making such a great video!

Coming over from Nebula. This is one of the best explainer videos I’ve ever seen; breaks down the concepts well and builds up so you can understand the complexity. Great work!

This video is a very good summary of how cell phones work. I studied electrical engineering in the 1980s and covered a lot of this material up to time division multiplexing. Then I got hired on by an electrical utility in 1986 which uses a lot of telecom equipment, and in those days almost all equipment was analog. I think this video would be informative and helpful for anyone studying telecom equipment in college or university, or for anyone hired on as a tech or engineer in a telecom company. Good work!

this is so simple and cool when you put it like this. wonderful video man.

This is something I've always wondered about phones/data transmission but never had the time to research on my own. Such a wonderfully condensed video on an amazingly complex topic!

I've done a bit of analog RF stuff but I never actually knew how digital signals were transmitted over radio, I guess that makes sense as far as being able to pack in more information without changing the frequency you're transmitting at. Really informative video.

Excellent!!! Just loved it, keep it up. Your channel is great and this video in particular was outstanding. Congrats

Well done for such a great video tackling very difficult subject. I wish I could have explained it as well any time I have tried to tell people how their cell phone works. You touched on it briefly but there is a whole other video to be made on how the call transfers between towers when you are on the move and even how the call knows where to find you if, for example, you get off a plane in another city or country.

A great video, thanks to wendover productions, I am pursuing Electronics and Communication Engineering, a subject wholly related to this video, I know how to encode, decode, transmit and design these techniques such as QAM, QPSK, BPSK, CDMA, MIMO but never knew the evolution and why they are designed and how they are designed. At the end of this video I completely understand the whole thing behind digital Communication. I think I would be lucky if I had a professor like you.

This is one of the most well made, well explained videos I’ve ever seen. Keep ‘em coming Mr. Dover

exceptionally great video! just had my final exam on a MSc module signal processing and transmission a couple of days ago and this is basically this course in 20mins! Awesome

I would really love to see more physics/tech related videos from you. Love this a lot.

I am not even finished it yet and this is already one of the most mind blowing videos you have ever done. Incredible stuff.

This was genuinely fascinating. It's nice to know what 4G, 5G, etc. mean, and that it's not just a scam.

Loved this vid, I always wanted to understand telecommunication better and this helped a lot.

It's quite interesting to see you covering this during while I am going thro this course at the moment.

All this ingenuity just so some Dream stans can have the ability to yell at me on Twitter. Truly beautiful

If only college professors could explain things this easily and in depth

0:25 No, it's not cyan reaching our eyes but combination of red, green and blue.

I knew much of this already but its fascinating how simply it was put forth.

The CDMA technique is also used by GPS. Each satellite has its own code and your receiver knows all of them, so it can pull apart the composite signal to get the data streams from whatever satellites are visible, and from there use the sent timing data to figure out where you are.

You compressed so much information into this small piece of video, just like cell service providers explained in also this video. Well done

I felt oddly very satisfied watching this explanation. I've been watching numerous youtube video explaining how electromagnetic wave transformed to transmit mind boggling massive amount of different data at one time. Got the very basic of it but not as deep as this one. This one is quite deep into the mechanics but also reasonably simplified for greater audience reach. Very well done WP..

Working in the industry and this was the best intro to the field. Great job!

There's also one obvious solution to the capacity problem: make the cells smaller. We've been building more and more low power base stations in heavily populated areas for this reason. Mobile phones also adjust their transmission power once they know the distance to the nearest base station, to make it less likely another nearby station on the same frequency will detect the signal.
Spatial Multiplexing using arrays of small antennas is also pretty fascinating. I'm not sure exactly how it works, you can use beamforming to transmit two data streams on the same frequency in different directions at the same time, but I'm not sure if it can receive two data streams at the same time if they aren't beamformed themselves.